PaperBLAST

PaperBLAST Hits for SwissProt::P11166 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1; HepG2 glucose transporter (Homo sapiens (Human)) (492 a.a., MEPSSKKLTG...)

Show query sequence

>SwissProt::P11166 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1; HepG2 glucose transporter (Homo sapiens (Human))
MEPSSKKLTGRLMLAVGGAVLGSLQFGYNTGVINAPQKVIEEFYNQTWVHRYGESILPTT
LTTLWSLSVAIFSVGGMIGSFSVGLFVNRFGRRNSMLMMNLLAFVSAVLMGFSKLGKSFE
MLILGRFIIGVYCGLTTGFVPMYVGEVSPTALRGALGTLHQLGIVVGILIAQVFGLDSIM
GNKDLWPLLLSIIFIPALLQCIVLPFCPESPRFLLINRNEENRAKSVLKKLRGTADVTHD
LQEMKEESRQMMREKKVTILELFRSPAYRQPILIAVVLQLSQQLSGINAVFYYSTSIFEK
AGVQQPVYATIGSGIVNTAFTVVSLFVVERAGRRTLHLIGLAGMAGCAILMTIALALLEQ
LPWMSYLSIVAIFGFVAFFEVGPGPIPWFIVAELFSQGPRPAAIAVAGFSNWTSNFIVGM
CFQYVEQLCGPYVFIIFTVLLVLFFIFTYFKVPETKGRTFDEIASGFRQGGASQSDKTPE
ELFHPLGADSQV

Running BLASTp...

Found 250 similar proteins in the literature:

Q59GX2 Solute carrier family 2, facilitated glucose transporter member 1 (Fragment) from Homo sapiens
100% identity, 95% coverage

• Proteome architecture of human-induced pluripotent stem cell-derived three-dimensional organoids as a tool for early diagnosis of neuronal disorders
  Negi, Indian journal of pharmacology 2023
  • “...3.793E-03 61 P33240 Cleavage stimulation factor subunit 2 CSTF2 2 60.9 5 1.67 2.576E-02 62 Q59GX2 Solute carrier family 2 (Facilitated glucose transporter) SLC2A1 3 57 6 1.65 5.484E-03 63 Q8NHP8 Putative phospholipase B-like 2 PLBD2 4 65.4 15 1.62 1.496E-02 64 Q1ZYL5 Tropomyosin 1 alpha...”
• Proteomics changes after negative pressure wound therapy in diabetic foot ulcers
  Jia, Molecular medicine reports 2021
  • “...ATP1B3 0.0047 ko04966 Collecting duct acid secretion E2RVJ0, V9HW21 SLC4A1, HEL-76 0.0065 ko04911 Insulin secretion Q59GX2, P54709 N/A, ATP1B3 0.0109 ko04210 Apoptosis O43236, P02549, P25774 SEPT4, SPTA1, CTSS 0.0133 ko05166 Human T-cell leukemia virus 1 infection Q59GX2, Q9Y277, P27824 N/A, VDAC3, CANX 0.0192 ko05143 African trypanosomiasis...”
• Enhancement of red blood cell transfusion compatibility using CRISPR-mediated erythroblast gene editing.
  Hawksworth, EMBO molecular medicine 2018
  • “...protein STOM 52 14 102 14 1.35 E7EMK3 Flotillin2 FLOT2 35 15 32 15 0.98 Q59GX2 Solute carrier family 2 (Facilitated glucose transporter) Glut1 SLC2A1 13 9 86 9 1.14 C8C504 Betaglobin HBB 94 21 2,705 1 0.93 P00915 Carbonic anhydrase 1 CA1 72 16 370...”
• Proteomic identification of nuclear processes manipulated by cytomegalovirus early during infection
  Carter, Proteomics 2015
  • “...7.94E-11 O75182 SIN3B Paired amphipathic helix protein Sin3b 2.44 8.80E-03 2.92E-02 3 3 3.9 8.47E-25 Q59GX2 SLC2A1 Solute carrier family 2 2.40 1.09E-02 3.41E-02 2 2 3.5 2.68E-10 J3QRU1 YES Tyrosine-protein kinase Yes 2.35 3.24E-03 1.40E-02 4 5 8.4 6.52E-11 O00505 KPNA3 Importin subunit alpha-4 2.35...”
• LC/MS-based quantitative proteomic analysis of paraffin-embedded archival melanomas reveals potential proteomic biomarkers associated with metastasis
  Huang, PloS one 2009
  • “...Q8TBK5 RPL6 60S ribosomal protein L6 2 0.005 Q02878 GAPDHS Glyceraldehyde-3-phosphate dehydrogenase, testis-specific 3 0.006 Q59GX2 GLUT1 Solute carrier family 2, facilitated glucose transporter member 1 2 0.007 Q14568 HSP90AA2 Heat shock protein HSP 90-alpha 2 17 0.008 P07195 LDHB L-lactate dehydrogenase B chain 12 0.008...”

SLC2A1 / P11166 solute carrier family 2, facilitated glucose transporter member 1 from Homo sapiens (see 25 papers)
GTR1_HUMAN / P11166 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1; HepG2 glucose transporter from Homo sapiens (Human) (see 36 papers)
TC 2.A.1.1.28 / P11166 The erythrocyte/brain hexose facilitator, glucose transporter-1, Gtr1 or Glut1. Transports D-glucose, dehydroascorbate, arsenite and the flavonone, quercetin, via one pathway and water via a distinct channel. Sugar transport has been suggested to function via a sliding mechanism involving several sugar binding sites (Cunningham et al., 2006). Glut1 is the receptor for human T-cell leukemia virus (HTLV)) (Manel et al., 2003). It is regulated by stomatin (TC# 8.A.21) to take up dehydroascorbate (Montel-Hagen et al., 2008). Mutations cause Glut1 deficiency syndrome, a human encephalopathy that results from decreased glucose flux through the blood brain barrier from Homo sapiens (Human) (see 21 papers)
NP_006507 solute carrier family 2, facilitated glucose transporter member 1 from Homo sapiens
100% identity, 100% coverage

• function: Facilitative glucose transporter, which is responsible for constitutive or basal glucose uptake (PubMed:10227690, PubMed:10954735, PubMed:18245775, PubMed:19449892, PubMed:25982116, PubMed:27078104, PubMed:32860739). Has a very broad substrate specificity; can transport a wide range of aldoses including both pentoses and hexoses (PubMed:18245775, PubMed:19449892). Most important energy carrier of the brain: present at the blood-brain barrier and assures the energy- independent, facilitative transport of glucose into the brain (PubMed:10227690). In association with BSG and NXNL1, promotes retinal cone survival by increasing glucose uptake into photoreceptors (By similarity). Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Interacts with GIPC (via PDZ domain) (By similarity). Found in a complex with ADD2, DMTN and SLC2A1. Interacts (via C-terminus cytoplasmic region) with DMTN isoform 2 (PubMed:18347014). Interacts with SNX27; the interaction is required when endocytosed to prevent degradation in lysosomes and promote recycling to the plasma membrane (PubMed:23563491). Interacts with STOM (PubMed:23219802). Interacts with SGTA (via Gln-rich region) (By similarity). Interacts with isoform 1 of BSG (PubMed:25957687).
• substrates: D-glucose, Dehydroascorbate, Quercetin, arsenite
  tcdb comment: Mueckler and Makepeace (2009) have presented a model of the exofacial substrate-binding site and helical folding of Glut1. Glut1, 2, 4 and 9 are functional both in the plasma membrane and the endoplasmic reticulum (Takanaga and Frommer, 2010). Glut1 is down-regulated in the brains of Alzheimer's disease patients (Liu et al., 2008b).Metabolic stress rapidly stimulates blood-brain barrier endothelial cell sugar transport by acute up-regulation of plasma membrane GLUT1 levels, possibly involving an AMP-activated kinase activity (Cura and Carruthers, 2010). Serves as a receptor for neuropilin-1 (923aas; 2 TMSs; O14786) and heparan sulfate proteoglycans (HSPGs) (Hoshino, 2012). Glut1 has a nucleotide binding site, and nucleotide binding affects transport activity (Yao and Bajjalieh 2009). The protein serves as a receptor for dermatin and β-adducin which help link the spectrin-actin junctional complex to the erythrocyte plasma membrane (Khan et al. 2008). May play a role in paroxysmal dyskinesias (Erro et al. 2017). GLUT1 mediates infection of CD4+ lymphocytes by human T cell leukemia virus type 1 (Jin et al. 2006). Mutations in disordered regions can cause disease by introducing dileucine motifs, For example, mutations that are causative of GLUT1 deficiency syndrome are of this type and the mutated protein mislocalizes to intracellular compartments (Meyer et al. 2018). Glucose transits along a transmembrane pathway through significant rotational motions while maintaining hydrogen bonds with the protein (Galochkina et al. 2019). It is phosphoryated by protein kinase C-B (TC# 8.A.104.1.4) (Lee et al. 2015). GLUT1-mediated exchange of fluorosugars has been studied (Shishmarev et al. 2018)
• Human umbilical cord mesenchymal stem cell-derived exosomal miR-214-3p regulates the progression of gallbladder cancer by regulating ACLY/GLUT1.
  Liu, Advances in clinical and experimental medicine : official organ Wroclaw Medical University 2024 (PubMed)
  • GeneRIF: Human umbilical cord mesenchymal stem cell-derived exosomal miR-214-3p regulates the progression of gallbladder cancer by regulating ACLY/GLUT1.
• Gene expression of protein kinase AMP-activated catalytic subunit alpha 1 (PRKAA1), solute carrier family 2 member 1 (SLC2A1) and mechanistic target of rapamycin (MTOR) in metformin-treated type 2 diabetes patients with COVID-19: impact on inflammation markers.
  Petakh, Inflammopharmacology 2024 (PubMed)
  • GeneRIF: Gene expression of protein kinase AMP-activated catalytic subunit alpha 1 (PRKAA1), solute carrier family 2 member 1 (SLC2A1) and mechanistic target of rapamycin (MTOR) in metformin-treated type 2 diabetes patients with COVID-19: impact on inflammation markers.
• Inhibition of glycolysis and SIRT1/GLUT1 signaling ameliorates the apoptotic effect of Leptosidin in prostate cancer cells.
  Park, Phytotherapy research : PTR 2024 (PubMed)
  • GeneRIF: Inhibition of glycolysis and SIRT1/GLUT1 signaling ameliorates the apoptotic effect of Leptosidin in prostate cancer cells.
• GLUT1 mediates the release of HMGB1 from airway epithelial cells in mixed granulocytic asthma.
  Tang, Biochimica et biophysica acta. Molecular basis of disease 2024 (PubMed)
  • GeneRIF: GLUT1 mediates the release of HMGB1 from airway epithelial cells in mixed granulocytic asthma.
• BRIX1 promotes ribosome synthesis and enhances glycolysis by selected translation of GLUT1 in colorectal cancer.
  Jiang, The journal of gene medicine 2024 (PubMed)
  • GeneRIF: BRIX1 promotes ribosome synthesis and enhances glycolysis by selected translation of GLUT1 in colorectal cancer.
• HNRNPC Regulates GLUT1/LDHA Pathway by Stabilizing FOXM1 mRNA to Promote the Progression and Aerobic Glycolysis of Multiple Myeloma.
  Wu, Annals of clinical and laboratory science 2024 (PubMed)
  • GeneRIF: HNRNPC Regulates GLUT1/LDHA Pathway by Stabilizing FOXM1 mRNA to Promote the Progression and Aerobic Glycolysis of Multiple Myeloma.
• Ubiquitin-specific protease 54 regulates GLUT1-mediated aerobic glycolysis to inhibit lung adenocarcinoma progression by modifying p53 degradation.
  Chen, Oncogene 2024 (PubMed)
  • GeneRIF: Ubiquitin-specific protease 54 regulates GLUT1-mediated aerobic glycolysis to inhibit lung adenocarcinoma progression by modifying p53 degradation.
• PURA and GLUT1: Sweet partners for brain health.
  Colombo, Biochimica et biophysica acta. Molecular basis of disease 2024 (PubMed)
  • GeneRIF: PURA and GLUT1: Sweet partners for brain health.
• More
• Network Pharmacology, Molecular Docking, and In Vitro Insights into the Potential of Mitragyna speciosa for Alzheimer's Disease
  Hossain, International journal of molecular sciences 2024
  • “...Disintegrin and metalloproteinase domain-containing protein 17 28 P05164 MPO Myeloperoxidase 29 P22303 ACHE Acetylcholinesterase 30 P11166 SLC2A1 Solute carrier family 2 31 P08473 MME Neprilysin 32 P49810 PSEN2 Presenilin-2 33 P07339 CTSD Cathepsin D 34 P07333 CSF1R Macrophage colony-stimulating factor 1 receptor 35 P30556 AGTR1 Type-1...”
• Insulin signaling and pharmacology in humans and in corals
  Murthy, PeerJ 2024
  • “...(2017) Ohira et al. (2005) GLUT1 Solute carrier family 2, facilitated glucose transporter member 1 P11166 (GTR1_HUMAN) Mueckler & Makepeace (2008) GLUT4 Solute carrier family 2, facilitated glucose transporter member 4 P14672 (GLUT4_HUMAN) Kawanishi et al. (2000) GRB2 Growth factor receptor-bound protein 2 P62993 (GRB2_HUMAN) Lowenstein...”
  • “...Q14409 Glycerol kinase 3 553 pdam_00006960 100 1.00E46 2.50E50 424 11468 8476 (476) 18 GLUT1 P11166 Solute carrier family 2, facilitated glucose transporter member 1 492 pdam_00006372 100 1.40E40 4.10E44 445 15470 40484 (495) 45 GLUT4 P14672 Solute carrier family 2, facilitated glucose transporter member 4...”
• Endoplasmic Reticulum Stress in Bronchopulmonary Dysplasia: Contributor or Consequence?
  Wu, Cells 2024
  • “...Q04771 Enzyme Plasma membrane 1 Epilepsy, migraine SCN1A P35498 Transporter Plasma membrane 1 Dystonia SLC2A1 P11166 Transporter Plasma membrane 1 Diarrhea (cholera toxin) NHE3 P48764 Transporter Plasma membrane 1 Diabetes KCNJ11 Q14654 Transporter Plasma membrane 1 Intrahepatic cholestasis ATP8B1 O43520 Transporter Plasma membrane, Golgi apparatus, or...”
• Isolation method of brain microvessels from small frozen human brain tissue for blood-brain barrier protein expression analysis.
  Ogata, Fluids and barriers of the CNS 2024
  • “...Q8WUX1 Detected only in Bcap - SLC6A12 P48065 Detected only in Bcap - SLC2A1 (GLUT1) P11166 122 4.66E-06 SLC7A1 (ATRC1) P30825 36.7 8.42E-05 SLC16A1 (MCT1) P53985 15.8 5.55E-02 SLC5A6 (SMVT) Q9Y289 15.3 9.17E-03 SLC9A3R2 (NHERF2) Q15599 12.0 3.42E-05 SLC38A3 (SNAT3) Q99624 7.41 9.82E-04 SLC7A5 (LAT1) Q01650...”
• Dual inhibitory potential of ganoderic acid A on GLUT1/3: computational and in vitro insights into targeting glucose metabolism in human lung cancer.
  Bashir, RSC advances 2024
  • “...employed. The protein sequences for GLUT1 and GLUT3 were obtained from UniProt with the IDs P11166 and P11169, respectively, for this investigation. The outward-open conformation of GLUT3 protein structure labeled with PDB ID: 4ZW9 has a resolution of 1.5 and contains a single mutation (N43T). 27...”
• The Plasmodium vivax MSP1P-19 is involved in binding of reticulocytes through interactions with the membrane proteins band3 and CD71.
  Zuo, The Journal of biological chemistry 2024
  • “...Ankyrin1 P16157 7.6 206.1 9 4 Solute carrier family 2, facilitated glucose transporter member 1 P11166 4.33 54.1 2 5 55kDa erythrocyte membrane protein Q00013 5.35 52.3 2 6 Protein band 4.2 P16452 1.88 77.0 1 Extracellular loop 5 of band3 serves as a critical binding...”
• The Effect of a Nature-Based Gel on Gingival Inflammation and the Proteomic Profile of Crevicular Fluid: A Randomized Clinical Trial.
  Figueiredo, Gels (Basel, Switzerland) 2024
  • “...wound healing P10153 Non-secretory ribonuclease catalytic activity, acting on rna defense response to other organism P11166 Solute carrier family 2, facilitated glucose transporter member 1 transporter activity transmembrane transport P13224 Platelet glycoprotein Ib beta chain molecular transducer activity wound healing P16157-2 Ankyrin-1 structural molecule activity vesicle-mediated...”
• Strictosamide promotes wound healing through activation of the PI3K/AKT pathway.
  Ming, Heliyon 2024
  • “...IX alpha subunit SCN9A Q15858 NAD-dependent deacetylasesirtuin 2 SIRT2 Q8IXJ6 Glucose transporter (by homology) SLC2A1 P11166 Tyrosine-protein kinase SYK SYK P43405 DNA topoisomerase I TOP1 P11387 Fig. 7 Screening of STR and wound healing hub genes. (A). Venn diagram of the STR and the wound healing-related...”
• More

XP_020952567 solute carrier family 2, facilitated glucose transporter member 1 from Sus scrofa
98% identity, 100% coverage

• Expression of glucose transporters in the prelaminar region of the optic-nerve head of the pig as determined by immunolabeling and tissue culture.
  Carreras, PloS one 2015
  • GeneRIF: results suggest that glucose is transported to the axonal cleft intracytoplasmically and delivered to the cleft by GLUT1 transporters
• Evaluation of proliferation and functional differentiation of LLC-PK1 cells on porous polymer membranes for the development of a bioartificial renal tubule device.
  Sato, Tissue engineering (PubMed)
  • GeneRIF: Expression of GLUT1 was evaluated in LLC-PK1 cells grown on porous membranes for the development of an artificial kidney.

GTR1_RAT / P11167 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1 from Rattus norvegicus (Rat) (see 6 papers)
NP_620182 solute carrier family 2, facilitated glucose transporter member 1 from Rattus norvegicus
98% identity, 100% coverage

• function: Facilitative glucose transporter, which is responsible for constitutive or basal glucose uptake (PubMed:2211693). Has a very broad substrate specificity; can transport a wide range of aldoses including both pentoses and hexoses (By similarity). Most important energy carrier of the brain: present at the blood-brain barrier and assures the energy-independent, facilitative transport of glucose into the brain (By similarity). In association with BSG and NXNL1, promotes retinal cone survival by increasing glucose uptake into photoreceptors (By similarity). Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Found in a complex with ADD2, DMTN and SLC2A1. Interacts (via C-terminus cytoplasmic region) with DMTN. Interacts with SNX27; the interaction is required when endocytosed to prevent degradation in lysosomes and promote recycling to the plasma membrane. Interacts with STOM (By similarity). Interacts with GIPC (via PDZ domain) (PubMed:10198040). Interacts with SGTA (via Gln-rich region) (PubMed:15708368). Interacts with isoform 1 of BSG (By similarity). Interacts with SMIM43; the interaction may promote SLC2A1-mediated glucose transport to meet the energy needs of mesendoderm differentiation (By similarity).
• Proteomics Reveals the Potential Protective Mechanism of Hydrogen Sulfide on Retinal Ganglion Cells in an Ischemia/Reperfusion Injury Animal Model
  Liu, Pharmaceuticals (Basel, Switzerland) 2020
  • “...Atp2b2 0.0227347 low Q7TP47 Syncrip 0.0239965 low Q8NCB2 CAMKV 0.0247766 low P14854 COX6B1 0.0270203 low P11167 Slc2a1 0.0276784 low P45479 Ppt1 0.0279009 high Q9QZA2 Pdcd6ip 0.0299058 low P41498 Acp1 0.032686 high P10155 TROVE2 0.0333496 high Q64428 Hadha 0.0337918 low P83916 CBX1 0.0342579 high Q64560 Tpp2 0.0352463...”
• Membrane Protein Identification in Rodent Brain Tissue Samples and Acute Brain Slices
  Joost, Cells 2019
  • “...5 4 5 Transporters Q9JHZ9 System N amino acid transporter 1 10 2 0 1 P11167 Solute carrier family 2, facilitated glucose transporter member 1 11 3 3 2 Q8VII6 Choline transporter-like protein 1 10 1 1 0 Q63016 Large neutral amino acids transporter small subunit...”
• Stress alters the expression of cancer-related genes in the prostate.
  Flores, BMC cancer 2017
  • “...inhibitor/apoptosis Skp2 B2GUZ0 S-phase kinase-associated protein 2 (p45) 1.56 1.67 Ubiquitin ligase/cell cycle regulation Slc2a1 P11167 Solute carrier family 2 (facilitated glucose transporter, member 1 1.25 1.32 Glucose transporter/metabolism (nutrient uptake) Tinf2 Q5XIB8 TERF 1 (TRF1)- interacting nuclear factor 2 4.29 6.11 Telomeric DNA binding/chrosomome stability...”
• Eggshell membrane ameliorates hepatic fibrogenesis in human C3A cells and rats through changes in PPARγ-Endothelin 1 signaling.
  Jia, Scientific reports 2014
  • “...P02466 Collagen alpha-2(I) chain Col1a2 1.14 0.94 P62828 GTP-binding nuclear protein Ran Ran 1.58 0.81 P11167 Solute carrier family 2, facilitated glucose transporter member 1 Slc2a1 2.12 0.61 P13221 Aspartate aminotransferase, cytoplasmic Got1 1.02 0.83 P67874 Casein kinase II subunit beta Csnk2b 1.21 0.67 P48675 Desmin...”
• Carbon source metabolism and its regulation in cancer cells.
  Yin, Critical reviews in eukaryotic gene expression 2012
  • “...2 Major Metabolic Enzymes Up-regulated by HIF-1 Genes Swiss Prot Reference Slc2a1 Glucose transporter 1 P11167 119 HK2 Hexokinase 2 P52789 120 Ldha Lactate dehydrogenase A P06151 121 PDK1 pyruvate dehydrogenase kin; ase 1 Q15118 40 CAIX carbonic anhydrase IX Q8VHB5 42 MCT4 Monocarboxylate transporter4 Q15427...”
  • “...3 Major Metabolic Enzymes Up-regulated by c-Myc Genes Swiss Prot Reference Slc2a1 Glucose transporter 1 P11167 47 HK2 Hexokinase 2 P52789 46 Ldha Lactate dehydrogenase A P06151 45 PDK1 Pyruvate dehydrogenase kinase 1 Q15118 46 Pfkl Phosphofructokinase (PFK1) P30835 47 Eno1 Enolase 1 P04764 47 TABLE...”
• Age-related changes in the retinal pigment epithelium (RPE).
  Gu, PloS one 2012
  • “...58 6.1 Y & A Solute carrier family 2, facilitated glucose transporter member 1 (Glut-1) P11167 55 13.0 Y & A Sulfated glycoprotein 1 (SGP-1) (Prosaposin) P10960 40 25.5 Y & A Transmembrane emp24 domain-containing protein 4 B5DEM3 30 12.8 A Ubiquitin carboxyl-terminal hydrolase 19 Q6J1Y9...”
• A microarray study of gene and protein regulation in human and rat brain following middle cerebral artery occlusion.
  Mitsios, BMC neuroscience 2007
  • “...0.6-fold 26 37 2.4-fold 3 days 0.05-fold 21 days Glucose Transporter 1 K03195 P11166 M13979 P11167 0.6-fold 26 37 11.6-fold 4 h 21 d Amongst these genes we examined in more detail a small subset with no prior report of a role in stroke (PAK1, MMP11...”
• High-throughput identification of IMCD proteins using LC-MS/MS.
  Pisitkun, Physiological genomics 2006
• More
• Increased GLUT1 expression and localization to Golgi apparatus of acinar cells in the parotid gland of Goto-Kakizaki diabetic rats.
  Maruo, Archives of oral biology 2023 (PubMed)
  • GeneRIF: Increased GLUT1 expression and localization to Golgi apparatus of acinar cells in the parotid gland of Goto-Kakizaki diabetic rats.
• A glucose-sensing mechanism with glucose transporter 1 and pyruvate kinase in the area postrema regulates hepatic glucose production in rats.
  Li, The Journal of biological chemistry 2023
  • GeneRIF: A glucose-sensing mechanism with glucose transporter 1 and pyruvate kinase in the area postrema regulates hepatic glucose production in rats.
• Intermedin alleviates diabetic vascular calcification by inhibiting GLUT1 through activation of the cAMP/PKA signaling pathway.
  Zhang, Atherosclerosis 2023 (PubMed)
  • GeneRIF: Intermedin alleviates diabetic vascular calcification by inhibiting GLUT1 through activation of the cAMP/PKA signaling pathway.
• Measurements of basal d-glucose transport through GLUT1 across the intact plasma membrane of isolated segments from single fast- and slow-twitch skeletal muscle fibres of rat.
  Rudayni, Acta physiologica (Oxford, England) 2022
  • GeneRIF: Measurements of basal d-glucose transport through GLUT1 across the intact plasma membrane of isolated segments from single fast- and slow-twitch skeletal muscle fibres of rat.
• Cortical Dysplasia in Rats Provokes Neurovascular Alterations, GLUT1 Dysfunction, and Metabolic Disturbances That Are Sustained Post-Seizure Induction.
  Ghosh, Molecular neurobiology 2022
  • GeneRIF: Cortical Dysplasia in Rats Provokes Neurovascular Alterations, GLUT1 Dysfunction, and Metabolic Disturbances That Are Sustained Post-Seizure Induction.
• PPARγ alleviates peritoneal fibrosis progression along with promoting GLUT1 expression and suppressing peritoneal mesothelial cell proliferation.
  Feng, Molecular and cellular biochemistry 2022
  • GeneRIF: PPARgamma alleviates peritoneal fibrosis progression along with promoting GLUT1 expression and suppressing peritoneal mesothelial cell proliferation.
• Impact of hyperglycemia on the expression of GLUT1 during oral carcinogenesis in rats.
  Dalal, Molecular biology reports 2022 (PubMed)
  • GeneRIF: Impact of hyperglycemia on the expression of GLUT1 during oral carcinogenesis in rats.
• Fetal Myocardial Expression of GLUT1: Roles of BPA Exposure and Cord Blood Exosomes in a Rat Model.
  Ermini, Cells 2022
  • GeneRIF: Fetal Myocardial Expression of GLUT1: Roles of BPA Exposure and Cord Blood Exosomes in a Rat Model.
• More

P13355 Solute carrier family 2, facilitated glucose transporter member 1 from Oryctolagus cuniculus
97% identity, 100% coverage

• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P46501 U28735 U41023 U31961 P27674 P46896 P11166 P17809 P13355 P11167 P20303 S37476 P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142...”

NP_001152798 solute carrier family 2, facilitated glucose transporter member 1 from Canis lupus familiaris
97% identity, 100% coverage

• Histological and immunohistochemical evaluation of stroma variations and their correlation with the Ki-67 index and expressions of glucose transporter 1 and monocarboxylate transporter 1 in canine thyroid C-cell carcinomas.
  Kawamura, The Journal of veterinary medical science 2016
  • GeneRIF: stroma variations reflect tumor cell proliferation and expressions of GLUT-1 and MCT-1 in canine thyroid C-cell carcinomas
• Hypoxia-Related Marker GLUT-1, CAIX, Proliferative Index and Microvessel Density in Canine Oral Malignant Neoplasia.
  Meier, PloS one 2016
  • GeneRIF: Hypoxia-Related Marker GLUT-1, CAIX, Proliferative Index and Microvessel Density in Canine Oral Malignant Neoplasia.
• Akita dogs possess GLUT1 in erythrocytes, and Na,K-ATPase activity enables more efficient ascorbic acid recycling.
  Ogawa, The Journal of veterinary medical science 2016
  • GeneRIF: All Akita dogs had GLUT1 in erythrocyte membranes
• Glucose transporter 1 expression accompanies hypoxia sensing in the cyclic canine corpus luteum.
  Papa, Reproduction (Cambridge, England) 2014 (PubMed)
  • GeneRIF: Our data reveal that the glucose transporter is regulated throughout the corpus luteum lifespan and suggest that the corpus luteum depends on the sensing of hypoxia and the status of luteal vascularisation.

GTR1_MOUSE / P17809 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1; GT1 from Mus musculus (Mouse) (see 7 papers)
NP_035530 solute carrier family 2, facilitated glucose transporter member 1 isoform 1 from Mus musculus
97% identity, 100% coverage

• function: Facilitative glucose transporter, which is responsible for constitutive or basal glucose uptake (PubMed:17320047, PubMed:35810171). Has a very broad substrate specificity; can transport a wide range of aldoses including both pentoses and hexoses (By similarity). Most important energy carrier of the brain: present at the blood-brain barrier and assures the energy-independent, facilitative transport of glucose into the brain (By similarity). In association with BSG and NXNL1, promotes retinal cone survival by increasing glucose uptake into photoreceptors (By similarity). Required for mesendoderm differentiation (PubMed:35810171).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Found in a complex with ADD2, DMTN and SLC2A1. Interacts (via C-terminus cytoplasmic region) with DMTN isoform 2. Interacts with SNX27; the interaction is required when endocytosed to prevent degradation in lysosomes and promote recycling to the plasma membrane. Interacts with GIPC (via PDZ domain). Interacts with STOM. Interacts with SGTA (via Gln-rich region) (By similarity). Interacts with isoform 1 of BSG (By similarity). Interacts with SMIM43; the interaction may promote SLC2A1-mediated glucose transport to meet the energy needs of mesendoderm differentiation (PubMed:35810171).
  disruption phenotype: Early embryonic lethality.
• GLUT1 regulates the release of VEGF-A in the alveolar epithelium of lipopolysaccharide-induced acute lung injury.
  Liang, Cell biology international 2024 (PubMed)
  • GeneRIF: GLUT1 regulates the release of VEGF-A in the alveolar epithelium of lipopolysaccharide-induced acute lung injury.
• GLUT1 mediates the release of HMGB1 from airway epithelial cells in mixed granulocytic asthma.
  Tang, Biochimica et biophysica acta. Molecular basis of disease 2024 (PubMed)
  • GeneRIF: GLUT1 mediates the release of HMGB1 from airway epithelial cells in mixed granulocytic asthma.
• GLUT1-mediated glucose import in B cells is critical for anaplerotic balance and humoral immunity.
  Bierling, Cell reports 2024 (PubMed)
  • GeneRIF: GLUT1-mediated glucose import in B cells is critical for anaplerotic balance and humoral immunity.
• Expression of the monocarboxylate transporter MCT1 is required for virus-specific mouse CD8+ T cell memory development.
  D'Aria, Proceedings of the National Academy of Sciences of the United States of America 2024
  • GeneRIF: Expression of the monocarboxylate transporter MCT1 is required for virus-specific mouse CD8[+] T cell memory development.
• GLUT1 Promotes NLRP3 Inflammasome Activation of Airway Epithelium in Lipopolysaccharide-Induced Acute Lung Injury.
  Li, The American journal of pathology 2024 (PubMed)
  • GeneRIF: GLUT1 Promotes NLRP3 Inflammasome Activation of Airway Epithelium in Lipopolysaccharide-Induced Acute Lung Injury.
• GLUT1 overexpression enhances CAR T cell metabolic fitness and anti-tumor efficacy.
  Shi, Molecular therapy : the journal of the American Society of Gene Therapy 2024
  • GeneRIF: GLUT1 overexpression enhances CAR T cell metabolic fitness and anti-tumor efficacy.
• Astrocytic GLUT1 reduction paradoxically improves central and peripheral glucose homeostasis.
  Ardanaz, Science advances 2024
  • GeneRIF: Astrocytic GLUT1 reduction paradoxically improves central and peripheral glucose homeostasis.
• GLUT1 is redundant in hypoxic and glycolytic nucleus pulposus cells of the intervertebral disc.
  Johnston, JCI insight 2023
  • GeneRIF: GLUT1 is redundant in hypoxic and glycolytic nucleus pulposus cells of the intervertebral disc.
• More
• Extracellular Vesicles Secreted by Mouse Decidual Cells Carry Critical Information for the Establishment of Pregnancy
  Ma, Endocrinology 2022
  • “...cell death protein 6 0.00E+00 6.94E+05 UD Slc2a1 P17809 Solute carrier family 2, facilitated glucose transporter member 1 0.00E+00 3.26E+05 UD Igfbp7 F8WH23...”
• SWATH-Based Comprehensive Determination of the Localization of Apical and Basolateral Membrane Proteins Using Mouse Liver as a Model Tissue.
  Hirano, Biomedicines 2022
  • “...B2RX12 1.71 0.00 Yes Numb Q9QZS3 1.82 0.01 Yes Dnm2 P39054 1.74 0.02 Potentially Slc2a1 P17809 1.59 0.05 Yes Vapa Q9WV55 1.77 0.03 Yes Ap2m1 P84091 1.68 0.01 Yes Stx4 P70452 1.76 0.01 Yes Ap2a2 P17427 1.66 0.00 Yes Enzymes Efr3a Q8BG67 1.74 0.01 Yes Ap2s1...”
• Efficient isolation of brain capillary from a single frozen mouse brain for protein expression analysis.
  Ogata, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism 2021
• Alport syndrome: Proteomic analysis identifies early molecular pathway alterations in Col4a3 knock out mice.
  Nicolaou, Nephrology (Carlton, Vic.) 2020
  • “...MM Glutathione Stransferase Mu 2 P52825 CPT2 4.34E02 0.5 NN MM Carnitine Opalmitoyltransferase 2, mitochondrial P17809 GTR1 2.83E03 0.5 NN MM Solute carrier family 2, facilitated glucose transporter member 1 O70133 DHX9 1.61E03 0.5 NN MM ATPdependent RNA helicase A O88322 NID2 4.49E03 0.5 NN MM...”
• PAX2 promotes epithelial ovarian cancer progression involving fatty acid metabolic reprogramming.
  Feng, International journal of oncology 2020
  • “...Protein accession no. Gene Protein description RM-PAX2 RM-WPI ratio Regulated type P - value Glycolysis P17809 Slc2a1, Glut-1, Glut1 Solute carrier family 2, facilitated glucose transporter member 1 0.86 - 0.3308 P17710 Hk1 Hexokinase-1 0.91 - 0.1620 O08528 Hk2 Hexokinase-2 0.83 - 0.2196 Q3TRM8 Hk3 Hexokinase-3...”
• MS/MS in silico subtraction-based proteomic profiling as an approach to facilitate disease gene discovery: application to lens development and cataract.
  Aryal, Human genetics 2020
  • “...Q9WUB3 Glycogen phosphorylase, muscle form None found 59 Nedd8 P29595 NEDD8 None found 60 Slc2a1 P17809 Solute carrier family 2, facilitated glucose transporter member 1 None found 61 Sf3b5 Q923D4 Splicing factor 3B subunit 5 (SF3b5) None found 62 Kif1a P33173 Kinesin-like protein KIF1A None found...”
  • “...4.0 16.5 3.0E-93 0.00000 97.9 5.9 Cadm1 Q8R5M8 3.5 11.9 5.0E-31 0.00000 28.8 2.4 Slc2a1 P17809 3.1 9.5 1.0E-10 0.00000 11.5 1.2 Arvcf P98203 3.0 8.4 4.0E-19 0.00000 21.3 2.5 Tjp1 P39447 2.9 7.6 1.0E-41 0.00000 47.9 6.3 Ezr P26040 2.8 7.1 3.0E-70 0.00000 108.9 15.3...”
• Label-free quantitative mass spectrometry analysis of differential protein expression in the developing cochlear sensory epithelium
  Darville, Proteome science 2018
  • “...normalized spectral countsS.D. P62631 Elongation factor 1-alpha 2 20.79.79 Q6GQT1 Alpha-2-macroglobulin-P 11.54.54 P19221 Prothrombin 10.76.05 P17809 Acyl-CoA synthetase long-chain family member 6 9.408.54 Q5ICG5 Solute carrier family 2, facilitated glucose transporter member 1 8.408.77 P22599 Alpha-1-antitrypsin 12 5.804.88 Q99K67 Alpha-aminoadipic semialdehyde synthase 4.503.79 P00920 Carbonic anhydrase...”
• Native KCC2 interactome reveals PACSIN1 as a critical regulator of synaptic inhibition
  Mahadevan, eLife 2017
  • “...1 X JAGN1 Q5XKN4 12.0 1 X PPFIA3 P60469 11.0 1 X X X SLC2A1 P17809 11.0 0.96 X YWHAE P62259 10.0 0.99 X X X X X ACTN4 P57780 9.0 1 X X CRMP1 P97427 8.0 1 X X X X PITPNM2 Q6ZPQ6 8.0 1...”
• More

GTR1_BOVIN / P27674 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1, erythrocyte/brain; GLUT-1 from Bos taurus (Bovine) (see paper)
XP_006068373 solute carrier family 2, facilitated glucose transporter member 1 isoform X1 from Bubalus bubalis
NP_777027 solute carrier family 2, facilitated glucose transporter member 1 from Bos taurus
97% identity, 100% coverage

• function: Facilitative glucose transporter, which is responsible for constitutive or basal glucose uptake. Has a very broad substrate specificity; can transport a wide range of aldoses including both pentoses and hexoses. Most important energy carrier of the brain: present at the blood-brain barrier and assures the energy-independent, facilitative transport of glucose into the brain (By similarity). In association with BSG and NXNL1, promotes retinal cone survival by increasing glucose uptake into photoreceptors (By similarity). Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Found in a complex with ADD2, DMTN and SLC2A1. Interacts (via C-terminus cytoplasmic region) with DMTN. Interacts with SNX27; the interaction is required when endocytosed to prevent degradation in lysosomes and promote recycling to the plasma membrane. Interacts with GIPC (via PDZ domain). Interacts with STOM. Interacts with SGTA (via Gln-rich region) (By similarity). Interacts with BSG (By similarity). Interacts with SMIM43; the interaction may promote SLC2A1-mediated glucose transport to meet the energy needs of mesendoderm differentiation (By similarity).
• Expression profiling of glucose transporter 1 (GLUT1) and apoptotic genes (BAX and BCL2) in milk enriched mammary epithelial cells (MEC) in riverine buffalo during lactation.
  Yadav, Animal biotechnology 2014 (PubMed)
  • GeneRIF: Milk enriched mammary epithelial cells were used to study the expression pattern of GLUT1 and apoptotic genes (BAX and BCL2) across different stages of lactation in riverine buffalo in relation to milk yield.
• Glucose transporter expression differs between bovine monocyte and macrophage subsets and is influenced by milk production.
  Eger, Journal of dairy science 2016 (PubMed)
  • GeneRIF: Low GLUT1 and GLUT3 expression in nonclassical monocytes was unaltered during differentiation into macrophages. GLUT4 mRNA was only detectable in unstimulated macrophages. Neither monocytes nor macrophages were insulin responsive.
• Glucose transporter and hypoxia-associated gene expression in the mammary gland of transition dairy cattle.
  Mattmiller, Journal of dairy science 2011 (PubMed)
  • GeneRIF: Significant increases in GLUT1 gene expression were observed during early lactation.
• GLUT-1 glucose transporters in the blood-brain barrier: differential phosphorylation.
  Devraj, Journal of neuroscience research 2011
  • GeneRIF: the different conformations of the GLUT-1 transporter in luminal (blood facing) and abluminal (brain facing) membranes of bovine cerebral endothelial cells arise from differential phosphorylation of GLUT-1
• Hyperthermia-induced Hsp90·eNOS preserves mitochondrial respiration in hyperglycemic endothelial cells by down-regulating Glut-1 and up-regulating G6PD activity.
  Presley, The Journal of biological chemistry 2010
  • GeneRIF: Hyperthermia-induced Hsp90.eNOS preserves mitochondrial respiration in hyperglycemic endothelial cells by down-regulating Glut-1 and up-regulating G6PD activity.
• Human T cell leukemia virus envelope binding and virus entry are mediated by distinct domains of the glucose transporter GLUT1.
  Manel, The Journal of biological chemistry 2005 (PubMed)
  • GeneRIF: distinct domains of the glucose transporter GLUT1 mediate HTLV envelope binding and virus entry
• Distinct regulation of glucose transport and GLUT1/GLUT3 transporters by glucose deprivation and IGF-I in chromaffin cells.
  Fladeby, Biochimica et biophysica acta 2003 (PubMed)
  • GeneRIF: distinct regulation by glucose deprivation in chromaffin cells

5eqgA / P11166 Human glut1 in complex with inhibitor (2~{s})-3-(4-fluorophenyl)-2-[2- (3-hydroxyphenyl)ethanoylamino]-~{n}-[(1~{s})-1- phenylethyl]propanamide (see paper)
100% identity, 91% coverage

• Ligand: (2~{s})-3-(4-fluorophenyl)-2-[2-(3-hydroxyphenyl)ethanoylamino]-~{n}-[(1~{s})-1-phenylethyl]propanamide (5eqgA)

G8F2R2 Solute carrier family 2, facilitated glucose transporter member 1 from Macaca fascicularis
91% identity, 99% coverage

• Analysis of protein expression changes of the Vero E6 cells infected with classic PEDV strain CV777 by using quantitative proteomic technique.
  Sun, Journal of virological methods 2015
  • “...of biological process; response to stimulus; metabolic process 5.57E04 1.35 116 a Putative protein EGK_00649 G8F2R2 transporter activity membrane transport 2.83E03 1.36 117 Ribosomal RNA-processing protein 8 F7C3H4 catalytic activity; protein binding nucleus; organelle lumen; cytoplasm; membrane; chromosome metabolic process; regulation of biological process; cell communication;...”

NP_990540 solute carrier family 2, facilitated glucose transporter member 1 from Gallus gallus
89% identity, 99% coverage

• Role of cardiac hypoxia in the pathogenesis of sudden death syndrome in broiler chickens - A metabolic and molecular study.
  Safaei, Acta veterinaria Hungarica 2021 (PubMed)
  • GeneRIF: Role of cardiac hypoxia in the pathogenesis of sudden death syndrome in broiler chickens - A metabolic and molecular study.
• Localisation and function of glucose transporter GLUT1 in chicken (Gallus gallus domesticus) spermatozoa: relationship between ATP production pathways and flagellar motility.
  Setiawan, Reproduction, fertility, and development 2020 (PubMed)
  • GeneRIF: Localisation and function of glucose transporter GLUT1 in chicken (Gallus gallus domesticus) spermatozoa: relationship between ATP production pathways and flagellar motility.
• Insulin acutely increases glucose transporter 1 on plasma membranes and glucose uptake in an AKT-dependent manner in chicken adipocytes.
  Shimamoto, General and comparative endocrinology 2019 (PubMed)
  • GeneRIF: GLUT1 is an insulin-responsive GLUT in chicken adipocytes.
• Effects of first exogenous nutrients on the mRNA levels of atrogin-1/MAFbx and GLUT1 in the skeletal muscles of newly hatched chicks.
  Ijiri, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology 2017 (PubMed)
  • GeneRIF: effects of first exogenous nutrients on the mRNA levels of muscle atrophy F-box (atrogin-1/MAFbx) and glucose transporters (GLUTs) in the skeletal muscles of newly hatched chicks with no feed experience
• Gene expression pattern of glucose transporters in the skeletal muscles of newly hatched chicks.
  Shimamoto, Bioscience, biotechnology, and biochemistry 2016 (PubMed)
  • GeneRIF: Phosphorylated AKT level was high in the skeletal muscles, suggesting a relationship between AKT and GLUT1 expression.
• Altered gene and protein expression of glucose transporter1 underlies dexamethasone inhibition of insulin-stimulated glucose uptake in chicken muscles.
  Zhao, Journal of animal science 2012 (PubMed)
  • GeneRIF: The results of the present study indicate that the altered GLUT-1 gene and protein expression may contribute to the insulin resistance induced by dexamethasone treatment in chicken muscles.

GTR1_CHICK / P46896 Solute carrier family 2, facilitated glucose transporter member 1; Glucose transporter type 1; GLUT-1; GT1 from Gallus gallus (Chicken) (see paper)
88% identity, 99% coverage

• function: Facilitative glucose transporter, which is responsible for constitutive or basal glucose uptake. Has a very broad substrate specificity; can transport a wide range of aldoses including both pentoses and hexoses. Most important energy carrier of the brain: present at the blood-brain barrier and assures the energy-independent, facilitative transport of glucose into the brain (By similarity). In association with BSG and NXNL1, promotes retinal cone survival by increasing glucose uptake into photoreceptors (PubMed:25957687). Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Interacts with isoform 1 of BSG.
• Embryonic protein undernutrition by albumen removal programs the hepatic amino acid and glucose metabolism during the perinatal period in an avian model
  Willems, PloS one 2014
  • “...43,9 51 1 3 Cp GLUT1 Solute carrier family 2, facilitated glucose transporter member 1 P46896 8.82 54,1 42 2 1 Cm SMAD3 Mothers against decapentaplegic homolog 3 P84023 6.70 48,3 37 1 3 Cp, Nu LDHB L-lactate dehydrogenase B chain P00337 7.07 36,3 36 1...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...U28737 Z66522 Z66522 P46501 U28735 U41023 U31961 P27674 P46896 P11166 P17809 P13355 P11167 P20303 S37476 P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843...”

B3KVN0 Solute carrier family 2, facilitated glucose transporter member 1 from Homo sapiens
100% identity, 85% coverage

• Data-independent acquisition-based blood proteomics unveils predictive biomarkers for neonatal necrotizing enterocolitis
  Chen, Analytical and bioanalytical chemistry 2025
  • “...1 C, D). Interestingly, the KEGG analysis implicated bile secretion in the decreased level of B3KVN0 (SLC12A2) (Fig. 1 D), suggesting attenuated bile secretion during NEC formation, consistent with our previous reports [ 19 ]. Furthermore, we integrated significantly downregulated and upregulated proteins into a hub...”
• Reticulocyte and red blood cell deformation triggers specific phosphorylation events.
  Moura, Blood advances 2019

TC 2.A.1.1.86 / H9BPB6 The sea bream facilitative glucose transporter 1 (GLUT1) from Sparus aurata
78% identity, 99% coverage

• substrates: glucose

TC 2.A.1.1.130 / Q63ZP5 Glucose transporter 1, GLUT1 or Slc2A1 of 491 aas and 12 TMSs from Xenopus laevis
82% identity, 99% coverage

• substrates: glucose
  tcdb comment: Expression occurs in the mesodermal region of Xenopus embryos, especially in the dorsal blastopore lip at the gastrula stage. It is an important player during gastrulation cell movement (Suzawa et al. 2007)

NP_001034897 solute carrier family 2, facilitated glucose transporter member 1a from Danio rerio
74% identity, 100% coverage

• Akt2 modulates glucose availability and downstream apoptotic pathways during development.
  Jensen, The Journal of biological chemistry 2010
  • GeneRIF: akt2 has a role in an integrative pathway directly linking glucose, Glut1 expression, and activation of apoptosis
• GLUT1 deficiency links nutrient availability and apoptosis during embryonic development.
  Jensen, The Journal of biological chemistry 2006 (PubMed)
  • GeneRIF: A tractable system for elucidating the cellular and molecular mechanisms of Glut1 deficiency and in vivo genetic evidence directly linking nutrient availability and activation of apoptosis during embryonic brain development are presented.

NP_990842 solute carrier family 2, facilitated glucose transporter member 3 from Gallus gallus
71% identity, 97% coverage

• Characterisation of glucose transporter (GLUT) gene expression in broiler chickens.
  Kono, British poultry science 2005 (PubMed)
  • GeneRIF: The extent of mRNA expression of GLUT1, GLUT2, GLUT3 and GLUT8 in chickens intrinsically lacking GLUT4 is reported.

P28568 Solute carrier family 2, facilitated glucose transporter member 3 from Gallus gallus
70% identity, 97% coverage

• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P13355 P11167 P20303 S37476 P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377...”

NP_777028 solute carrier family 2, facilitated glucose transporter member 3 from Bos taurus
67% identity, 97% coverage

• Glucose transporter expression differs between bovine monocyte and macrophage subsets and is influenced by milk production.
  Eger, Journal of dairy science 2016 (PubMed)
  • GeneRIF: Low GLUT1 and GLUT3 expression in nonclassical monocytes was unaltered during differentiation into macrophages. GLUT4 mRNA was only detectable in unstimulated macrophages. Neither monocytes nor macrophages were insulin responsive.
• Glucose transporter and hypoxia-associated gene expression in the mammary gland of transition dairy cattle.
  Mattmiller, Journal of dairy science 2011 (PubMed)
  • GeneRIF: GLUT3 gene expression increased during late lactation.
• Distinct regulation of glucose transport and GLUT1/GLUT3 transporters by glucose deprivation and IGF-I in chromaffin cells.
  Fladeby, Biochimica et biophysica acta 2003 (PubMed)
  • GeneRIF: distinct regulation by glucose deprivation in chromaffin cells

GTR3_SHEEP / P47843 Solute carrier family 2, facilitated glucose transporter member 3; Glucose transporter type 3, brain; GLUT-3 from Ovis aries (Sheep) (see paper)
NP_001009770 solute carrier family 2, facilitated glucose transporter member 3 from Ovis aries
68% identity, 94% coverage

• function: Facilitative glucose transporter. Can also mediate the uptake of various other monosaccharides across the cell membrane. Mediates the uptake of glucose, 2-deoxyglucose, galactose, mannose, xylose and fucose, and probably also dehydroascorbate. Does not mediate fructose transport. Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
  subunit: Interacts with SMIM43; the interaction may promote SLC2A3- mediated glucose transport to meet the energy needs of mesendoderm differentiation.
• Impact of Placental SLC2A3 Deficiency during the First-Half of Gestation.
  Lynch, International journal of molecular sciences 2022
  • GeneRIF: Impact of Placental SLC2A3 Deficiency during the First-Half of Gestation.
• iTRAQ-Based Identification of Proteins Related to Muscle Growth in the Pacific Abalone, Haliotis discus hannai.
  Huang, International journal of molecular sciences 2017
  • “...A1, actin-2, actin, solute carrier family 2 facilitated glucose transporter member 3 (SLC2A3; Accession Number: P47843) ACTB, GDPD1 Endometrial cancer - kitasatospora griseola strain MF730-N6 RKJC_4, EGFR, GDPD1 Shigellosis actin A1, actin-2, actin profilin (Accession Number: F4XXT7), ACTB, GDPD1 Regulation of actin cytoskeleton actin A1, actin-2,...”
• Production and release of antimicrobial and immune defense proteins by mammary epithelial cells following Streptococcus uberis infection of sheep
  Addis, Infection and immunity 2013
  • “...Q258K2 P28783 Q1JPB0 P20000 P20700 Q8SPQ0 P27214 O46522 P47843 Integrin beta-2 Myeloperoxidase Annexin A3 Vimentin Filamin A Coronin 1A Myosin 9 Protein S100A9...”

P58352 Solute carrier family 2, facilitated glucose transporter member 3 from Bos taurus
67% identity, 97% coverage

• Comparative Analysis of Erythrocyte Proteomes of Water Buffalo, Dairy Cattle, and Beef Cattle by Shotgun LC-MS/MS
  Guo, Frontiers in veterinary science 2019
  • “...L8IDM3 Adenylyl cyclase-associated protein 1 1 53609.62 6.72 F1N2L9 4-trimethylaminobutyraldehyde dehydrogenase 1 1 53990.56 5.84 P58352 Solute carrier family 2, facilitated glucose transporter member 3 2 2 54019.03 5.55 F1MZL6 V-type proton ATPase subunit H 1 1 54089.4 6.18 F1MP10 Uncharacterized protein 1 1 54150.37 6.27...”

O62787 Solute carrier family 2, facilitated glucose transporter member 3 from Sus scrofa
67% identity, 96% coverage

• GPX5-Enriched Exosomes Improve Sperm Quality and Fertilization Ability.
  Huang, International journal of molecular sciences 2024
  • “...Accession Protein Name Fold of Change (HCR/LCR) p -Value O18994 Glutathione peroxidase 5 4.14 0.0094 O62787 Glucose transporter type 3 3.46 0.0141 O97763 Niemann Pick type C2 protein homolog 2.01 0.0010 P00336 L-lactate dehydrogenase B chain 4.50 0.0340 P00339 L-lactate dehydrogenase A chain isoform X3 2.62...”

XP_006237358 solute carrier family 2, facilitated glucose transporter member 3 isoform X1 from Rattus norvegicus
67% identity, 96% coverage

• Fructose-rich diet and walnut supplementation differently regulate rat hypothalamic and hippocampal glucose transporters expression.
  Dakic, Journal of the science of food and agriculture 2021 (PubMed)
  • GeneRIF: Fructose-rich diet and walnut supplementation differently regulate rat hypothalamic and hippocampal glucose transporters expression.
• Aging alters glucose uptake in the naïve and injured rodent spinal cord.
  von, Neuroscience letters 2019
  • GeneRIF: findings show that age alters glucose uptake and GLUT3/4 expression profiles before and after Spinal Cord Injury.
• Altered lactate metabolism in Huntington's disease is dependent on GLUT3 expression.
  Solís-Maldonado, CNS neuroscience & therapeutics 2018
  • GeneRIF: Study found no differences in mRNA or protein levels of neuronal monocarboxylate transporters (MCTs). Functional analyses revealed that neuronal MCT2 had high catalytic efficiency in Huntington's disease (HD) cells. Ascorbic acid did not stimulate lactate uptake in HD cells; and was unable to inhibit glucose transport in HD cells because they exhibit decreased expression of the neuronal glucose transporter GLUT3.
• Chronic stress modulates regional cerebral glucose transporter expression in an age-specific and sexually-dimorphic manner.
  Kelly, Physiology & behavior 2014
  • GeneRIF: Hippocampal mRNA abundance of GLUT3 decreases with age in males and females
• Extracellular ATP-prinoceptor signaling and AMP-activated protein kinase regulate astrocytic glucose transporter 3 in an in vitro ischemia.
  Iwabuchi, Neurochemistry international 2013 (PubMed)
  • GeneRIF: results suggest AMPK-regulated ATP production triggers the release of ATP to activate P2Y receptor signaling, which is another candidate that regulates GLUT3 expression under the ischemic condition
• IGF-1 induces hypoxia-inducible factor 1α-mediated GLUT3 expression through PI3K/Akt/mTOR dependent pathways in PC12 cells.
  Yu, Brain research 2012 (PubMed)
  • GeneRIF: Expression of GLUT3 in response to IGF-1 is dependent on phosphatidylinositol (PI)-3-kinase and mTOR activity and requires transcription factor HIF-1alpha in neuronal PC12 cells.
• Triiodothyronine stimulates glucose transport in bone cells.
  Zoidis, Endocrine 2012 (PubMed)
  • GeneRIF: Data suggest that triiodothyronine (T3) up-regulates Glut1 and Glut3 in osteoblasts; thus, increased glucose uptake induced by T3 may be mediated by these high-affinity glucose transporters.
• The expression of genes involved in glucose metabolism is affected by N-methyl-D-aspartate receptor antagonism: a putative link between metabolism and an animal model of psychosis.
  Iasevoli, Journal of neuroscience research 2012 (PubMed)
  • GeneRIF: The results show that Hk1 and GLUT3 may play a role in the pathophysiology of ketamine-induced behavioral abnormalities.
• More

GTR3_HUMAN / P11169 Solute carrier family 2, facilitated glucose transporter member 3; Glucose transporter type 3, brain; GLUT-3 from Homo sapiens (Human) (see 6 papers)
TC 2.A.1.1.91 / P11169 Solute carrier family 2, facilitated glucose transporter member 3 (Glucose transporter type 3, brain) (GLUT-3 or GLUT3). It mediates the facilitative uptake of glucose, 2-deoxyglucose, galactose, mannose, xylose and fucose, and probably dehydroascorbate, but not fructose from Homo sapiens (see 6 papers)
NP_008862 solute carrier family 2, facilitated glucose transporter member 3 from Homo sapiens
66% identity, 96% coverage

• function: Facilitative glucose transporter (PubMed:26176916, PubMed:32860739, PubMed:9477959). Can also mediate the uptake of various other monosaccharides across the cell membrane (PubMed:26176916, PubMed:9477959). Mediates the uptake of glucose, 2- deoxyglucose, galactose, mannose, xylose and fucose, and probably also dehydroascorbate (PubMed:26176916, PubMed:9477959). Does not mediate fructose transport (PubMed:26176916, PubMed:9477959). Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
  subunit: Interacts with SMIM43; the interaction may promote SLC2A3- mediated glucose transport to meet the energy needs of mesendoderm differentiation.
• substrates: glucose
  tcdb comment: GLUT3, a key neuronal transporter, exhibits multiple intermediate states (Sun and Zheng 2019)
• Glut-3 Gene Knockdown as a Potential Strategy to Overcome Glioblastoma Radioresistance.
  Pucci, International journal of molecular sciences 2024
  • GeneRIF: Glut-3 Gene Knockdown as a Potential Strategy to Overcome Glioblastoma Radioresistance.
• SLC2A3 promotes tumor progression through lactic acid-promoted TGF-β signaling pathway in oral squamous cell carcinoma.
  Jiang, PloS one 2024
  • GeneRIF: SLC2A3 promotes tumor progression through lactic acid-promoted TGF-beta signaling pathway in oral squamous cell carcinoma.
• The YTHDC1/GLUT3/RNF183 axis forms a positive feedback loop that modulates glucose metabolism and bladder cancer progression.
  Yan, Experimental & molecular medicine 2023
  • GeneRIF: The YTHDC1/GLUT3/RNF183 axis forms a positive feedback loop that modulates glucose metabolism and bladder cancer progression.
• GLUT3 promotes macrophage signaling and function via RAS-mediated endocytosis in atopic dermatitis and wound healing.
  Yu, The Journal of clinical investigation 2023
  • GeneRIF: GLUT3 promotes macrophage signaling and function via RAS-mediated endocytosis in atopic dermatitis and wound healing.
• Concurrent presence of diabetes affects the GLUT3 programming of glucose metabolism in glioblastoma.
  Kocaeli, European review for medical and pharmacological sciences 2023 (PubMed)
  • GeneRIF: Concurrent presence of diabetes affects the GLUT3 programming of glucose metabolism in glioblastoma.
• Peritoneal Expression of SGLT-2, GLUT1, and GLUT3 in Peritoneal Dialysis Patients.
  Schricker, Kidney & blood pressure research 2022 (PubMed)
  • GeneRIF: Peritoneal Expression of SGLT-2, GLUT1, and GLUT3 in Peritoneal Dialysis Patients.
• miR-3189-targeted GLUT3 repression by HDAC2 knockdown inhibits glioblastoma tumorigenesis through regulating glucose metabolism and proliferation.
  Kwak, Journal of experimental & clinical cancer research : CR 2022
  • GeneRIF: miR-3189-targeted GLUT3 repression by HDAC2 knockdown inhibits glioblastoma tumorigenesis through regulating glucose metabolism and proliferation.
• The glucose transporter GLUT3 controls T helper 17 cell responses through glycolytic-epigenetic reprogramming.
  Hochrein, Cell metabolism 2022
  • GeneRIF: The glucose transporter GLUT3 controls T helper 17 cell responses through glycolytic-epigenetic reprogramming.
• More
• Comparison of the amyloid plaque proteome in Down syndrome, early-onset Alzheimer's disease, and late-onset Alzheimer's disease
  Martá-Ariza, Acta neuropathologica 2025
  • “...P02686 MBP Myelin basic protein 1.97E-06 1.7 P13637 ATP1A3 Sodium/potassium-transporting ATPase subunit alpha-3 1.95E-09 1.6 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 1.97E-06 1.5 P41594 GRM5 Metabotropic glutamate receptor 5 1.45E-07 1.5 Late-onset ADPlaque vs Non-plaque Uniprot Accession ID Gene name Name...”
  • “...1.25E-06 1.6 P20916 MAG Myelin-associated glycoprotein 4.16E-06 1.6 P02686 MBP Myelin basic protein 7.42E-06 1.6 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 3.52E-05 1.5 P13637 ATP1A3 Sodium/potassium-transporting ATPase subunit alpha-3 2.8E-07 1.5 AD non-plaque tissue pairwise comparisons We identified 263 differentially expressed...”
• miR-373 promotes invasion and metastasis of colorectal cancer cells via activating ERK/MAPK pathway
  Chen, Scientific reports 2024
  • “...R P value Q9BTV4 1.412143144 UP 2.38652E-06 P28360 0.750072908 DOWN 2.34629E-05 P80188 1.349647612 UP 3.29035E-06 P11169 0.782828283 DOWN 2.38279E-05 Q8NDM7 1.347945205 UP 1.51136E-05 P47929 0.80342651 DOWN 0.000158276 Q9Y2Y6 1.661934339 UP 2.82104E-05 Q14533 0.788375559 DOWN 0.004104687 Q96L50 1.572898799 UP 3.46669E-05 Q02410 0.811047389 DOWN 0.004520402 P02787 1.200586725 UP...”
• Comparison of the Amyloid Plaque Proteome in Down Syndrome, Early-Onset Alzheimer's Disease and Late-Onset Alzheimer's Disease.
  Martá-Ariza, Research square 2024
  • “...P02686 MBP Myelin basic protein 1.97E-06 1.7 P13637 ATP1A3 Sodium/potassium-transporting ATPase subunit alpha-3 1.95E-09 1.6 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 1.97E-06 1.5 P41594 GRM5 Metabotropic glutamate receptor 5 1.45E-07 1.5 Late-onset AD - Plaque vs Non-plaque Uniprot Accession ID Gene...”
  • “...1.25E-06 1.6 P20916 MAG Myelin-associated glycoprotein 4.16E-06 1.6 P02686 MBP Myelin basic protein 7.42E-06 1.6 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 3.52E-05 1.5 P13637 ATP1A3 Sodium/potassium-transporting ATPase subunit alpha-3 2.8E-07 1.5...”
• Dual inhibitory potential of ganoderic acid A on GLUT1/3: computational and in vitro insights into targeting glucose metabolism in human lung cancer.
  Bashir, RSC advances 2024
  • “...protein sequences for GLUT1 and GLUT3 were obtained from UniProt with the IDs P11166 and P11169, respectively, for this investigation. The outward-open conformation of GLUT3 protein structure labeled with PDB ID: 4ZW9 has a resolution of 1.5 and contains a single mutation (N43T). 27 To generate...”
• Overexpression of SERPINA3 suppresses tumor progression by modulating SPOP/NF‑κB in lung cancer
  Jin, International journal of oncology 2023
  • “...cancer type 2 susceptibility protein 384.202 19.397 0.000 O43791 SPOP Speckle-type POZ 42.132 16.291 0.042 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 53.924 14.177 0.000 Q96PE1 ADGRA2 Adhesion G protein-coupled receptor A2 142.647 7.983 0.018 P41220 RGS2 Regulator of G-protein signaling 2...”
• Magnetic transferrin nanoparticles (MTNs) assay as a novel isolation approach for exosomal biomarkers in neurological diseases
  Jang, Biomaterials research 2023
  • “...Noelin Y Y Cluster 1 P51149 HUMAN RAB7A Ras-related protein Rab-7a Y N Cluster 2 P11169 HUMAN SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 Y N Cluster 3 Q66K66 HUMAN TMEM198 Transmembrane protein 198 N Y Cluster 1 P24821 HUMAN TNC Tenascin Y...”
• New findings on the action of hypericin in hypoxic cancer cells with a focus on the modulation of side population cells
  Buľková, Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie 2023
  • “...SPRYD4 SPRY domain-containing protein 4 -1,07 0,48 0,003 Q9UHR5 SAP30BP SAP30-binding protein -1,03 0,49 0,006 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 -0,99 0,50 0,009 Q9BQ70 TCF25 Transcription factor 25 -0,95 0,52 0,009 Q13423 NNT NAD(P) transhydrogenase, mitochondrial (MTCH) -0,95 0,52 0,005...”
• Defining the proteomic landscape of cultured macrophages and their polarization continuum.
  Oates, Immunology and cell biology 2023
  • “...CD63 CD63 antigen 1.44 0.60 1.48 P13473 LAMP2 Lysosomeassociated membrane glycoprotein 2 0.36 0.64 1.43 P11169 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 0.89 0.61 1.42 P11717 IGF2R Cationindependent mannose6phosphate receptor 1.04 0.48 0.58 Q92542 NCSTN Nicastrin 0.46 0.05 0.52 P48060 GLIPR1 Glioma...”
• More

GTR3_RAT / Q07647 Solute carrier family 2, facilitated glucose transporter member 3; Glucose transporter type 3, brain; GLUT-3 from Rattus norvegicus (Rat) (see 3 papers)
TC 2.A.1.1.12 / Q07647 Glucose uniporter, Glut3 (also transports dehydro-ascorbate; Maulén et al., 2003). Down-regulated in the brains of Alzheimer's disease patients (Liu et al., 2008b) from Rattus norvegicus (Rat) (see 2 papers)
67% identity, 96% coverage

• function: Facilitative glucose transporter. Can also mediate the uptake of various other monosaccharides across the cell membrane. Mediates the uptake of glucose, 2-deoxyglucose, galactose, mannose, xylose and fucose, and probably also dehydroascorbate. Does not mediate fructose transport. Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
  subunit: Interacts with SMIM43; the interaction may promote SLC2A3- mediated glucose transport to meet the energy needs of mesendoderm differentiation.
• substrates: glucose
  tcdb comment: The structure of the human orthologue with D-glucose bound was solved at 1.5 Å resolution in the outward occluded conformation (Deng et al. 2015). Sugars are predominantly coordinated by polar residues in the C-terminal domain. The conformational transition from the outward-open to the outward-occluded states entails a prominent local rearrangement of the extracellular part of TMS 7. Comparison of the outward-facing GLUT3 structures with inward-open GLUT1 provides insight into the alternating access cycle for GLUTs, whereby the C-terminal domain provides the primary substrate-binding site and the N-terminal domain undergoes rigid-body rotation with respect to the C-terminal domain (Deng et al. 2015). Glut3 is involved in several disease states in humans (Lechermeier et al. 2019)
• Proteomic investigation of acute and chronic hypoxia/reoxygenation responsive proteins and pathways in H9C2 cardiomyoblasts
  Öztuğ, Turkish journal of biology = Turk biyoloji dergisi 2024
  • “...alpha 1.56564E-16 O55043 Rho guanine nucleotide exchange factor 7 1.69661E-06 Q63433 Serine/threonine-protein kinase N1 8.76119E-12 Q07647 Solute carrier family 2, facilitated glucose transporter member 3 6.61577E-08 Q2M2R8 Peroxisomal targeting signal 1 receptor 4.86371E-05 Q9Z2J4 Nexilin 1.56564E-16 Q7TP54 Rho family-interacting cell polarization regulator 2 1.1613E-06 D4ACN8 Plasminogen...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377 U43375 U52842 Z46381 L27651...”
  • “...P37021 P09830 P09098 P21906 P43581 P13181 P11636 P30605 P07921 P15685 S59368 Q07647 U11843 P15686 Q02563 X78855 Q06222 SP SP SP SP SP SP SP SP SP SP PIR SP GB...”

GTR3_RABIT / Q9XSC2 Solute carrier family 2, facilitated glucose transporter member 3; Glucose transporter type 3, brain; GLUT-3 from Oryctolagus cuniculus (Rabbit) (see paper)
66% identity, 96% coverage

• function: Facilitative glucose transporter. Can also mediate the uptake of various other monosaccharides across the cell membrane. Mediates the uptake of glucose, 2-deoxyglucose, galactose, mannose, xylose and fucose, and probably also dehydroascorbate. Does not mediate fructose transport. Required for mesendoderm differentiation (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
  subunit: Interacts with SMIM43; the interaction may promote SLC2A3- mediated glucose transport to meet the energy needs of mesendoderm differentiation.

7sptA / P11169 Crystal structure of exofacial state human glucose transporter glut3 (see paper)
67% identity, 94% coverage

• Ligand: alpha-d-glucopyranose (7sptA)

NP_001301156 solute carrier family 2, facilitated glucose transporter member 4 from Capra hircus
66% identity, 96% coverage

• Cloning and functional analysis of goat glucose transporter 4.
  Zhu, Molecular biology reports 2014 (PubMed)
  • GeneRIF: These results suggest that goat GLUT4 functions in the transport of glucose and it may play a positive role in amino acid uptake in mammary glands.

Q27994 Solute carrier family 2, facilitated glucose transporter member 4 from Bos taurus
66% identity, 96% coverage

• Coronavirus accessory protein ORF3 biology and its contribution to viral behavior and pathogenesis.
  Si, iScience 2023
  • “...) Human GLUT4 P14672 TM-HRTPSLLEQEVKPSTELE YLGP D END -COOH (Wollscheid etal. 163 ) Mouse GLUT4 Q27994 TM-HRTPSLLEQEVKPSTELE YLGP D EHD -COOH (Abe etal. 164 ) Note : The YXX motif is underlined, and the acidic residues complying with the di-acidic [(D/E)X(E/D)] signal are boldly displayed. Sequences...”

GTR3_MOUSE / P32037 Solute carrier family 2, facilitated glucose transporter member 3; Glucose transporter type 3, brain; GLUT-3 from Mus musculus (Mouse) (see 3 papers)
NP_035531 solute carrier family 2, facilitated glucose transporter member 3 isoform b from Mus musculus
67% identity, 96% coverage

• function: Facilitative glucose transporter (PubMed:35810171). Can also mediate the uptake of various other monosaccharides across the cell membrane (By similarity). Mediates the uptake of glucose, 2- deoxyglucose, galactose, mannose, xylose and fucose, and probably also dehydroascorbate (By similarity). Does not mediate fructose transport (By similarity). Required for mesendoderm differentiation (PubMed:35810171).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
  subunit: Interacts with SMIM43; the interaction may promote SLC2A3- mediated glucose transport to meet the energy needs of mesendoderm differentiation.
• LPCAT1 Facilitates Keratinocyte Hyperproliferation and Skin Inflammation in Psoriasis by Regulating GLUT3.
  Huang, The Journal of investigative dermatology 2024 (PubMed)
  • GeneRIF: LPCAT1 Facilitates Keratinocyte Hyperproliferation and Skin Inflammation in Psoriasis by Regulating GLUT3.
• GLUT3 promotes macrophage signaling and function via RAS-mediated endocytosis in atopic dermatitis and wound healing.
  Yu, The Journal of clinical investigation 2023
  • GeneRIF: GLUT3 promotes macrophage signaling and function via RAS-mediated endocytosis in atopic dermatitis and wound healing.
• Recurrent moderate hypoglycemia accelerates the progression of Alzheimer's disease through impairment of the TRPC6/GLUT3 pathway.
  He, JCI insight 2022
  • GeneRIF: Recurrent moderate hypoglycemia accelerates the progression of Alzheimer's disease through impairment of the TRPC6/GLUT3 pathway.
• The glucose transporter GLUT3 controls T helper 17 cell responses through glycolytic-epigenetic reprogramming.
  Hochrein, Cell metabolism 2022
  • GeneRIF: The glucose transporter GLUT3 controls T helper 17 cell responses through glycolytic-epigenetic reprogramming.
• CD205+ polymorphonuclear myeloid-derived suppressor cells suppress antitumor immunity by overexpressing GLUT3.
  Fu, Cancer science 2021
  • GeneRIF: CD205(+) polymorphonuclear myeloid-derived suppressor cells suppress antitumor immunity by overexpressing GLUT3.
• Adult glut3 homozygous null mice survive to demonstrate neural excitability and altered neurobehavioral responses reminiscent of neurodevelopmental disorders.
  Shin, Experimental neurology 2021
  • GeneRIF: Adult glut3 homozygous null mice survive to demonstrate neural excitability and altered neurobehavioral responses reminiscent of neurodevelopmental disorders.
• High NOV/CCN3 expression during high-fat diet pregnancy in mice affects GLUT3 expression and the mTOR pathway.
  Wang, American journal of physiology. Endocrinology and metabolism 2021 (PubMed)
  • GeneRIF: High NOV/CCN3 expression during high-fat diet pregnancy in mice affects GLUT3 expression and the mTOR pathway.
• Developing Brain Glucose Transporters, Serotonin, Serotonin Transporter, and Oxytocin Receptor Expression in Response to Early-Life Hypocaloric and Hypercaloric Dietary, and Air Pollutant Exposures.
  Ye, Developmental neuroscience 2021
  • GeneRIF: Developing Brain Glucose Transporters, Serotonin, Serotonin Transporter, and Oxytocin Receptor Expression in Response to Early-Life Hypocaloric and Hypercaloric Dietary, and Air Pollutant Exposures.
• More
• Proteomic analysis reveals activation of platelet- and fibrosis-related pathways in hearts of ApoE-/- mice exposed to diesel exhaust particles.
  Jung, Scientific reports 2023
  • “...TGFB1 Transforming growth factor beta-1 proprotein 1.88 0.034 O08742 GP5 Platelet glycoprotein V 1.87 0.035 P32037 SLC2A3 Solute carrier family 2, facilitated glucose transporter member 3 1.77 0.008 Q07235 SERPINE2 Glia-derived nexin 1.75 0.018 P12399 CTLA2A Protein CTLA-2-alpha 1.75 0.018 Q8BTM8 FLNA Filamin-A 1.67 0.030 P41317...”
• Unraveling the Proteomic Landscape of Intestinal Epithelial Cell-Derived Exosomes in Mice.
  Ding, Frontiers in physiology 2022
  • “...0.735 0.083 Not 12 Q5DTL9 Slc4a10 Sodium-driven chloride bicarbonate exchanger 39.14 0.734 0.025 Down 13 P32037 Slc2a3 Solute carrier family 2, facilitated glucose transporter member 3 25.83 0.734 0.227 Not 14 Q8VEM8 Slc25a3 Phosphate carrier protein, mitochondrial 250.32 0.732 0.000 Down 15 Q9Z2J0 Slc23a1 Solute carrier...”
• miR-29a/b₁ Regulates the Luteinizing Hormone Secretion and Affects Mouse Ovulation
  Guo, Frontiers in endocrinology 2021
  • “...P01216 Cga Glycoprotein hormones alpha chain OS=Mus musculus GN=Cga PE=2 SV=1 14 kDa 0.00035 1.35 P32037 Slc2a3 Solute carrier family 2, facilitated glucose transporter member 3 OS=Mus musculus GN=Slc2a3 PE=1 SV=1 53 kDa < 0.0001 1.35 Q8VCT4 Ces1d Carboxylesterase 1D OS=Mus musculus GN=Ces1d PE=1 SV=1 62...”
• Proteomics Landscape of Host-Pathogen Interaction in Acinetobacter baumannii Infected Mouse Lung
  Li, Frontiers in genetics 2021
  • “...P27870 Vav1 Vav 1 oncogene 1.22 1.66 P50404 Sftpd Surfactant associated protein D 1.35 1.56 P32037 Slc2a3 Solute carrier family 2 (facilitated glucose transporter), member 3 1.36 1.53 Q8BND5 Qsox1 Quiescin Q6 sulfhydryl oxidase 1 1.29 1.42 Q3U2S8 Hvcn1 Hydrogen voltage-gated channel 1 1.60 1.35 P28033...”
• The Impacts of Surgery and Intracerebral Electrodes in C57BL/6J Mouse Kainate Model of Epileptogenesis: Seizure Threshold, Proteomics, and Cytokine Profiles
  Tse, Frontiers in neurology 2021
  • “...3.6494 0.00901 17.52368 19.70244 18.78533 19.755233 Proteins downregulated in both surgery groups (vehicle and KA) P32037 Solute carrier family 2-(Glucose transporter type 3, brain) (GLUT-3) Slc2a3 Glut3 24.736 0.00002 4.6986 0.00191 22.52552 22.390868 22.63737 22.245415 Q62283 Tetraspanin-7 (Tspan-7/CD antigen CD231) Tspan7 Mxs1 21.247 4.31E-05 4.3654 0.00347...”
• Environmental Enrichment Upregulates Striatal Synaptic Vesicle-Associated Proteins and Improves Motor Function
  Song, Frontiers in neurology 2018
  • “...carboxyl-terminal hydrolase USP9X 1.51 O70161-3 Isoform 3 of Phosphatidylinositol 4-phosphate 5-kinase type-1 gamma PIP5K1C 1.51 P32037 Solute carrier family 2, facilitated glucose transporter member 3 SLC2A3 1.51 Q91ZA3 Propionyl-CoA carboxylase alpha chain, mitochondrial PCCA 1.51 E9Q035 Protein Gm20425 GM20425 1.51 Q7TMY8-4 Isoform 4 of E3 ubiquitin-protein...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P20303 S37476 P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377 U43375 U52842...”

GTR14_HUMAN / Q8TDB8 Solute carrier family 2, facilitated glucose transporter member 14; Glucose transporter type 14; GLUT-14 from Homo sapiens (Human) (see 3 papers)
TC 2.A.1.1.90 / Q8TDB8 Solute carrier family 2, facilitated glucose transporter member 14 (Glucose transporter type 14) (GLUT-14) from Homo sapiens (see 4 papers)
64% identity, 92% coverage

• function: Hexose transporter that can mediate the transport of glucose and dehydroascorbate across the cell membrane.
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: L-dehydroascorbate(out) = L-dehydroascorbate(in) (RHEA:60380)
• substrates: glucose
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked in ViTO, 39 taking into account secondary structure prediction by the PSIPRED server. 47 Models were then built based on templates PDB 4ZW9 (GLUT3) and...”
• Discovery of a Human Testis-specific Protein Complex TEX101-DPEP3 and Selection of Its Disrupting Antibodies.
  Schiza, Molecular & cellular proteomics : MCP 2018
• THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Transporters
  Alexander, British journal of pharmacology 2017
  • “...UniProt SLC2A1 , P11166 SLC2A2 , P11168 SLC2A3 , P11169 SLC2A4 , P14672 SLC2A14 , Q8TDB8 Common abreviation GLUT1 GLUT2 GLUT3 GLUT4 GLUT14 Substrates Dglucosamine (Dglucose = Dglucosamine) [ 537 ], dehydroascorbic acid [ 47 ], Dglucose (Dglucose = Dglucosamine) [ 537 ] Dglucosamine (Dglucosamine >...”
• The Concise Guide to PHARMACOLOGY 2015/16: Transporters
  Alexander, British journal of pharmacology 2015
  • “...UniProt SLC2A1 , P11166 SLC2A2 , P11168 SLC2A3 , P11169 SLC2A4 , P14672 SLC2A14 , Q8TDB8 Substrates Dglucosamine (Dglucose = Dglucosamine) [ 487 ], dehydroascorbic acid [ 39 ], Dglucose (Dglucose = Dglucosamine) [ 487 ] Dglucosamine (Dglucosamine > Dglucose) [ 487 ], Dglucose (Dglucosamine >...”
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...GLUT8 (Q9NY64); Homo sapiens facilitated glucose transporter GLUT11 (Q9BYW1); Homo sapiens facilitated glucose transporter GLUT14 (Q8TDB8). Simulation system setup The crystal of structure of XylE with substrate bound in the outward-facing partially occluded conformation (PDB 4GBY) was used as initial coordinates. The pKa values of titratable...”
• Unraveling the sperm proteome and post-genomic pathways associated with sperm nuclear DNA fragmentation
  Intasqui, Journal of assisted reproduction and genetics 2013
  • “...P30613 P0CG38 P0CG39 P30041 P13861 P06702 Q9H0C2 Q8TDB8 P11169 Q15506 Q6UW49 Q9UJZ1 0.169 0.208 0.313 0.061 0.118 Identified Identified Identified Identified...”
  • “...Int J Androl. 2008;31(3):337-45. 80. UniProt Entry Q8TDB8, http://www.uniprot.org/uniprot/Q8TDB8 81. Wang X, Sharma RK, Gupta A, George V, Thomas AJ, Falcone...”
• The Concise Guide to PHARMACOLOGY 2013/14: transporters
  Alexander, British journal of pharmacology 2013
  • “...GLUT2 GLUT3 GLUT4 GLUT14 HGNC, UniProt SLC2A1, P11166 SLC2A2, P11168 SLC2A3, P11169 SLC2A4, P14672 SLC2A14, Q8TDB8 Substrates D-glucose = D-glucosamine 104 , dehydroascorbic acid 99 D-glucosamine > D-glucose 104 D-glucose D-glucosamine D-glucose 104 Radioligands ( K d ) [3H]2-deoxyglucose [3H]2-deoxyglucose [3H]2-deoxyglucose [3H]2-deoxyglucose Class II transporters Overview...”
• Proteome alterations in primary human alveolar macrophages in response to influenza A virus infection.
  Liu, Journal of proteome research 2012
  • “...IPI00910047 P08107 Heat shock 70 kDa protein 1 HSPA1A 2.58 14 1 22.5 1.54E-203 IPI00152505 Q8TDB8 Glucose transporter member 14 GLUT14 2.49 2 2 2.9 0.02043 IPI00796379 F5H6I0 Beta-2-microglobulin B2M 2.21 3 3 21.3 3.74E-12 IPI00220007 B4E1T5 Apolipoprotein-L2 APOL2 2.14 4 4 10.4 1.54E-07 IPI00013455 P30622...”
• More

NP_001273166 solute carrier family 2, facilitated glucose transporter member 14 isoform d from Homo sapiens
64% identity, 89% coverage

• Adaptation to HIF1α Deletion in Hypoxic Cancer Cells by Upregulation of GLUT14 and Creatine Metabolism.
  Valli, Molecular cancer research : MCR 2019 (PubMed)
  • GeneRIF: Under hypoxia and HIF1 blockade, cancer cells adapt their energy metabolism via upregulation of the GLUT14 glucose transporter and creatine metabolism providing new avenues for drug targeting.
• The SLC2A14 gene, encoding the novel glucose/dehydroascorbate transporter GLUT14, is associated with inflammatory bowel disease.
  Amir, The American journal of clinical nutrition 2017
  • GeneRIF: Three alleles in the SLC2A14 gene associated independently with inflammatory bowel disease.
• The SLC2A14 gene: genomic locus, tissue expression, splice variants, and subcellular localization of the protein.
  Amir, Biochemistry and cell biology = Biochimie et biologie cellulaire 2016 (PubMed)
  • GeneRIF: report presents an expanded SLC2A14 gene locus and a more diverse tissue expression, concurring with the existing evidence for disease associations
• Both GLUT-1 and GLUT-14 are Independent Prognostic Factors in Gastric Adenocarcinoma.
  Berlth, Annals of surgical oncology 2015 (PubMed)
  • GeneRIF: High expression of GLUT-14 was associated with Gastric Adenocarcinoma.
• Genetic association of SLC2A14 polymorphism with Alzheimer's disease in a Han Chinese population.
  Wang, Journal of molecular neuroscience : MN 2012 (PubMed)
  • GeneRIF: SLC2A14 polymorphism has a possible role in changing the genetic susceptibility to late Alzheimer disease age of onset in a Han Chinese population.

NP_001152799 solute carrier family 2, facilitated glucose transporter member 4 from Canis lupus familiaris
67% identity, 96% coverage

• Conditioning causes an increase in glucose transporter-4 levels in mononuclear cells in sled dogs.
  Schnurr, The international journal of biochemistry & cell biology 2014
  • GeneRIF: Results indicate that the state of conditioning had a significant effect on the glucose transporter-4 protein (GLUT4) expression at the surface of mononuclear cells.
• Intervention of rosiglitazone on myocardium Glut-4 mRNA expression during ischemia-reperfusion injury in cardio-pulmonary bypass in dogs.
  Liu, Molecular and cellular biochemistry 2013 (PubMed)
  • GeneRIF: Damage of cardiac function during cardiopulomnary bypass are mostly associated with lower expression of Glut-4 mRNA.
• Chronic heart failure selectively induces regional heterogeneity of insulin-responsive glucose transporters.
  Ware, American journal of physiology. Regulatory, integrative and comparative physiology 2011
  • GeneRIF: Chronic heart failure selectively induces regional heterogeneity of insulin-responsive glucose transporters, GLUT4/12.
• Cardiac glucose uptake and suppressed expression/translocation of myocardium glucose transport-4 in dogs undergoing ischemia-reperfusion.
  Liang, Experimental biology and medicine (Maywood, N.J.) 2008 (PubMed)
  • GeneRIF: Suppressed translocation of GLUT-4 was also evident in dogs receiving 30-min ischemia

NP_001075335 solute carrier family 2, facilitated glucose transporter member 4 from Equus caballus
66% identity, 96% coverage

• Naturally occurring compensated insulin resistance selectively alters glucose transporters in visceral and subcutaneous adipose tissues without change in AS160 activation.
  Waller, Biochimica et biophysica acta 2011
  • GeneRIF: Insulin resistance was associated with a significantly reduced total GLUT4 content in omental adipose tissue, without a change in content in other visceral or subcutaneous adipose sites.
• Novel findings regarding Glut-4 expression in adipose tissue and muscle in horses--a preliminary report.
  Manso, Veterinary journal (London, England : 1997) 2007 (PubMed)
  • GeneRIF: There was a significant difference when pooled means for Glut-4 expression in muscle compared with adipose tissue from different anatomical sites.

GLUT4_MOUSE / P14142 Solute carrier family 2, facilitated glucose transporter member 4; GT2; Glucose transporter type 4, insulin-responsive; GLUT-4 from Mus musculus (Mouse) (see 8 papers)
NP_033230 solute carrier family 2, facilitated glucose transporter member 4 isoform 1 from Mus musculus
66% identity, 96% coverage

• function: Insulin-regulated facilitative glucose transporter, which plays a key role in removal of glucose from circulation (PubMed:26240143, PubMed:26629404). Response to insulin is regulated by its intracellular localization: in the absence of insulin, it is efficiently retained intracellularly within storage compartments in muscle and fat cells (PubMed:26240143, PubMed:26629404). Upon insulin stimulation, translocates from these compartments to the cell surface where it transports glucose from the extracellular milieu into the cell (PubMed:26240143, PubMed:26629404).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Binds to DAXX (By similarity). Interacts via its N-terminus with SRFBP1 (By similarity). Interacts with NDUFA9 (By similarity). Interacts with TRARG1; the interaction is required for proper SLC2A4 recycling after insulin stimulation (PubMed:26629404).
• Modulation of adiposity and adipocyte inflammation by methanol extracts <i>of Alpinia calcarata</i> leaf in high-fat-diet induced-obese mice: Involvement of COX-2 and PPAR-γ
  Ahmad, Heliyon 2025
  • “...442347 COX-2 Q05769 1,8 cineole 2758 PPAR P37238 -pinene 14896 IL-6 P08505 Camphor 2537 GLUT-4 P14142 Methyl cinnamate 637520 2.2 Plant extract preparation The desired plant leaves of A. calcarata were harvested from botanical garden in Dhaka, Bangladesh. The plant was validated by the Dhaka National...”
• Matrix Metalloproteinase-2 as a novel regulator of glucose utilization by adipocytes.
  Lempicki, bioRxiv : the preprint server for biology 2024
  • “...isoleucine. AlphaFold2 (AF2) in silico folding analysis, utilizing the identified murine GLUT4 extracellular loop (Uniprot: P14142, residues 6477) and full-length murine MMP2 (Uniprot: P33434), conformed the peptide to the active site of MMP2 in a substrate-like fashion with isoleucine occupying the P1 pocket adjacent to the...”
• Identification of Sortilin Alternatively Spliced Variants in Mouse 3T3L1 Adipocytes.
  Lui, International journal of molecular sciences 2021
  • “...to mouse sortilin luminal domain (PDB ID: 5NMR). Mouse Glut4 protein (Swiss Model in Expasy (P14142)) and folded sortilin proteins were minimized in Schrodinger protein preparation wizard (2019-1: Maestro, Schrdinger, LLC, New York, NY, USA). Molecular dynamics simulations were done using NAMD 2.12 [ 30 ]...”
• Identification of the MuRF1 Skeletal Muscle Ubiquitylome Through Quantitative Proteomics.
  Baehr, Function (Oxford, England) 2021
  • “...365, 511, 713 O09165 Calsequestrin-1 Casq1 79 Q9CZW4 Long-chain fatty acidCoA ligase 3 Acsl3 96 P14142 Solute carrier family 2, facilitated glucose transporter member 4 Slc2a4 261 P62082 40S ribosomal protein S7 Rps7 86 Q8C878 NEDD8-activating enzyme E1 catalytic subunit Uba3 398 Q505G8 Zinc finger protein...”
• Hydrogen sulfide increases glutathione biosynthesis, and glucose uptake and utilisation in C2C12 mouse myotubes.
  Parsanathan, Free radical research 2018
  • “...(Q9WTR6), and rat (D4ADU2), and a similar comparison of sequences of Slc2a4/GLUT4 human (P14672), mouse (P14142), and rat (P19357) indicated that the localization of cysteine residues is conserved in all species. Amino acid sequences were aligned with default parameters and checked for transmembrane annotation to rule...”
  • “...class. SWISS- MODEL workspace was used to generate models for mouse Slc7a11 (Q9WTR6) and Slc2a4 (P14142). The SWISS-MODEL template library (SMTL version 2016-11-09, PDB release 2016-11-05) was searched with Blast [ 41 ] and HHBlits [ 42 ] for evolutionarily related structures matching the target sequences....”
• Proteomic analysis of 3T3-L1 preadipocytes having a higher cell proliferation rate after treatment with low-molecular-weight silk fibroin peptides
  Huang, Cell proliferation 2010 (secret)
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377 U43375 U52842 Z46381 L27651 X78855 D83045...”
• Adipose tissue macrophage-derived microRNA-210-3p disrupts systemic insulin sensitivity by silencing GLUT4 in obesity.
  Patra, The Journal of biological chemistry 2024
  • GeneRIF: Adipose tissue macrophage-derived microRNA-210-3p disrupts systemic insulin sensitivity by silencing GLUT4 in obesity.
• Nuclear Factor-Kappa-B Mediates the Advanced Glycation End Product-Induced Repression of Slc2a4 Gene Expression in 3T3-L1 Adipocytes.
  Michalani, International journal of molecular sciences 2024
  • GeneRIF: Nuclear Factor-Kappa-B Mediates the Advanced Glycation End Product-Induced Repression of Slc2a4 Gene Expression in 3T3-L1 Adipocytes.
• Picalm, a novel regulator of GLUT4-trafficking in adipose tissue.
  Gaugel, Molecular metabolism 2024
  • GeneRIF: Picalm, a novel regulator of GLUT4-trafficking in adipose tissue.
• GSK3α phosphorylates dynamin-2 to promote GLUT4 endocytosis in muscle cells.
  Laiman, The Journal of cell biology 2023
  • GeneRIF: GSK3alpha phosphorylates dynamin-2 to promote GLUT4 endocytosis in muscle cells.
• Effects of short-term endurance and strength exercise in the molecular regulation of skeletal muscle in hyperinsulinemic and hyperglycemic Slc2a4+/- mice.
  Muñoz, Cellular and molecular life sciences : CMLS 2023
  • GeneRIF: Effects of short-term endurance and strength exercise in the molecular regulation of skeletal muscle in hyperinsulinemic and hyperglycemic Slc2a4[+/-] mice.
• Tectorigenin targets PKACα to promote GLUT4 expression in skeletal muscle and improve insulin resistance in vitro and in vivo.
  Yao, International journal of biological sciences 2023
  • GeneRIF: Tectorigenin targets PKACalpha to promote GLUT4 expression in skeletal muscle and improve insulin resistance in vitro and in vivo.
• Bone marrow mesenchymal stem cell-derived exosomes reduce insulin resistance and obesity in mice via the PI3K/AKT signaling pathway.
  Shi, FEBS open bio 2023
  • GeneRIF: Bone marrow mesenchymal stem cell-derived exosomes reduce insulin resistance and obesity in mice via the PI3K/AKT signaling pathway.
• Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
  Knudsen, eLife 2023
  • GeneRIF: Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
• More

NP_777029 solute carrier family 2, facilitated glucose transporter member 4 from Bos taurus
65% identity, 96% coverage

• Glucose transporter expression differs between bovine monocyte and macrophage subsets and is influenced by milk production.
  Eger, Journal of dairy science 2016 (PubMed)
  • GeneRIF: Low GLUT1 and GLUT3 expression in nonclassical monocytes was unaltered during differentiation into macrophages. GLUT4 mRNA was only detectable in unstimulated macrophages. Neither monocytes nor macrophages were insulin responsive.
• Myostatin alters glucose transporter-4 (GLUT4) expression in bovine skeletal muscles and myoblasts isolated from double-muscled (DM) and normal-muscled (NM) Japanese shorthorn cattle.
  Takahashi, Domestic animal endocrinology 2014 (PubMed)
  • GeneRIF: Results of the present study suggest that myostatin inhibits the expression of GLUT4 mRNA and that the greater ability of double muscled cattle to produce muscle may be due to their greater sensitivity to insulin and greater use of glucose.
• Glucose transporter and hypoxia-associated gene expression in the mammary gland of transition dairy cattle.
  Mattmiller, Journal of dairy science 2011 (PubMed)
  • GeneRIF: GLUT4 gene expression increased during late lactation.

NP_001121905 solute carrier family 2, facilitated glucose transporter member 4 from Sus scrofa
66% identity, 96% coverage

• Effect of heat stress on performance and expression of selected amino acid and glucose transporters, HSP90, leptin and ghrelin in growing pigs.
  Cervantes, Journal of thermal biology 2016 (PubMed)
  • GeneRIF: Feed intake remains low whereas respiratory frequency and body temperature remain higher and expression of HSP90, CAT1, SGLT1 and GLUT4 increases in some tissues in pigs under chronic heat stress conditions.
• Developmental changes in the expression of the GLUT2 and GLUT4 genes in the longissimus dorsi muscle of Yorkshire and Tibetan pigs.
  Liang, Genetics and molecular research : GMR 2015 (PubMed)
  • GeneRIF: analysis of time- and breed-specific expression patterns of GLUT2 and GLUT4, which highlight their potential as candidate genes for assessing adipose deposition and muscle development in pigs
• Expression study of GLUT4 translocation-related genes in a porcine pre-diabetic model.
  Kristensen, Mammalian genome : official journal of the International Mammalian Genome Society 2015 (PubMed)
  • GeneRIF: TBC1D4, insulin receptor and GLUT4 showed altered expression in some tissues in pre-diabetic pigs.
• Chronic elevated calcium blocks AMPK-induced GLUT-4 expression in skeletal muscle.
  Park, American journal of physiology. Cell physiology 2009 (PubMed)
  • GeneRIF: Chronic elevated calcium blocks AMPK-induced GLUT-4 expression in skeletal muscle.

GLUT4_HUMAN / P14672 Solute carrier family 2, facilitated glucose transporter member 4; Glucose transporter type 4, insulin-responsive; GLUT-4 from Homo sapiens (Human) (see 7 papers)
TC 2.A.1.1.80 / P14672 Insulin-responsive facilitative glucose transporter in skeletal and cardiac muscle, adipose, and other tissues, Glut4 (GTR4; SLC2A4; 509aas). Defects in Glut4 cause noninsulin-dependent diabetes mellitus (NIDDM) from Homo sapiens (see 12 papers)
NP_001033 solute carrier family 2, facilitated glucose transporter member 4 from Homo sapiens
65% identity, 96% coverage

• function: Insulin-regulated facilitative glucose transporter, which plays a key role in removal of glucose from circulation. Response to insulin is regulated by its intracellular localization: in the absence of insulin, it is efficiently retained intracellularly within storage compartments in muscle and fat cells. Upon insulin stimulation, translocates from these compartments to the cell surface where it transports glucose from the extracellular milieu into the cell.
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Interacts with NDUFA9 (By similarity). Binds to DAXX (PubMed:11842083). Interacts via its N-terminus with SRFBP1 (PubMed:16647043). Interacts with TRARG1; the interaction is required for proper SLC2A4 recycling after insulin stimulation (By similarity).
• substrates: glucose
  tcdb comment: Hyperinsulinemia leads to uncoupled insulin regulation of the GLUT4 glucose transporter and the FoxO1 transcription factor (Gonzalez et al., 2011). The first luminal loop confers insulin responsiveness to GLUT4 (Kim and Kandror, 2012). Exercise increases Glut4 synthesis in a process involving several protein kinases, the Glut4 enhancer factor (GEF; SLC2A4 regulator; Q9NR83), and the myocyte enhancing factor 2 (MEF2; NP_001139257). (McGee and Hargreaves 2006; Wright 2007; Zorzano et al. 2005). monoclonal antibodies against the GLUT4 inward-open and outward-open states have been isoated (Tucker et al. 2018). It is phosphoryated by protein kinase C-β, PRKCB or PKCB (Lee et al. 2015)
• GLUT4 localisation with the plasma membrane is unaffected by an increase in plasma free fatty acid availability.
  Barrett, Lipids in health and disease 2024
  • GeneRIF: GLUT4 localisation with the plasma membrane is unaffected by an increase in plasma free fatty acid availability.
• Insulin-Activated Signaling Pathway and GLUT4 Membrane Translocation in hiPSC-Derived Cardiomyocytes.
  Querio, International journal of molecular sciences 2024
  • GeneRIF: Insulin-Activated Signaling Pathway and GLUT4 Membrane Translocation in hiPSC-Derived Cardiomyocytes.
• Picalm, a novel regulator of GLUT4-trafficking in adipose tissue.
  Gaugel, Molecular metabolism 2024
  • GeneRIF: Picalm, a novel regulator of GLUT4-trafficking in adipose tissue.
• Glucose transporter 4: Insulin response mastermind, glycolysis catalyst and treatment direction for cancer progression.
  Chang, Cancer letters 2023 (PubMed)
  • GeneRIF: Glucose transporter 4: Insulin response mastermind, glycolysis catalyst and treatment direction for cancer progression.
• Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
  Knudsen, eLife 2023
  • GeneRIF: Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
• Effect of an acute long-duration exercise bout on skeletal muscle lipid droplet morphology, GLUT 4 protein, and perilipin protein expression.
  Bajpeyi, European journal of applied physiology 2023
  • GeneRIF: Effect of an acute long-duration exercise bout on skeletal muscle lipid droplet morphology, GLUT 4 protein, and perilipin protein expression.
• Talin1 regulates glucose metabolism and endometrial receptivity via GLUT-4 in patients with polycystic ovary syndrome and insulin resistance.
  Li, Gynecological endocrinology : the official journal of the International Society of Gynecological Endocrinology 2023 (PubMed)
  • GeneRIF: Talin1 regulates glucose metabolism and endometrial receptivity via GLUT-4 in patients with polycystic ovary syndrome and insulin resistance.
• The intracellular helical bundle of human glucose transporter GLUT4 is important for complex formation with ASPL.
  Huang, FEBS open bio 2023
  • GeneRIF: The intracellular helical bundle of human glucose transporter GLUT4 is important for complex formation with ASPL.
• More
• Stem Cell-Associated Proteins and Extracellular Matrix Composition of the Human Atrioventricular Junction
  Thorsell, Cells 2024
  • “...Mitochondrial respiratory chain CD300LG Q6UXG3 CMRF35-like molecule 9 2.76 4.04 10 3 Immune system SLC2A4 P14672 Solute carrier family 2, facilitated glucose transporter member 4 2.24 7.20 10 3 Glucose homeostasis, response to hypoxia SDHD O14521 Succinate dehydrogenase [ubiquinone] cytochrome b small subunit, mitochondrial 2.12 1.40...”
• Insulin signaling and pharmacology in humans and in corals
  Murthy, PeerJ 2024
  • “...(GTR1_HUMAN) Mueckler & Makepeace (2008) GLUT4 Solute carrier family 2, facilitated glucose transporter member 4 P14672 (GLUT4_HUMAN) Kawanishi et al. (2000) GRB2 Growth factor receptor-bound protein 2 P62993 (GRB2_HUMAN) Lowenstein et al. (1992) GSK-3 Glycogen synthase kinase-3 alpha Glycogen synthase kinase-3 beta P49840 (GSK3A_HUMAN) P49841 (GSK3B_HUMAN)...”
  • “...glucose transporter member 1 492 pdam_00006372 100 1.40E40 4.10E44 445 15470 40484 (495) 45 GLUT4 P14672 Solute carrier family 2, facilitated glucose transporter member 4 509 pdam_00014912 100 3.60E39 9.90E43 437 23485 27484 (494) 28 GRB2 P62993 Growth factor receptor-bound protein 2 217 pdam_00010914 100 3.50E36...”
• Elucidating the Potential Inhibitor against Type 2 Diabetes Mellitus Associated Gene of GLUT4
  Aldahish, Journal of personalized medicine 2023
  • “...protein sequence for this protein was retrieved from the UniProt knowledge database with accession number P14672 [ 18 ] ( https://www.uniprot.org/ accessed on 5 February 2022). 2.2. Phylogenetic Analysis and Motif Detection After retrieving the gene sequences, a customized BLAST [ 19 ] search was executed...”
• Coronavirus accessory protein ORF3 biology and its contribution to viral behavior and pathogenesis.
  Si, iScience 2023
  • “...chain P04235 TM-QALLKNEQL YQPL R DRE DTQYSRLG-COOH (Van Den Elsen etal. 162 ) Human GLUT4 P14672 TM-HRTPSLLEQEVKPSTELE YLGP D END -COOH (Wollscheid etal. 163 ) Mouse GLUT4 Q27994 TM-HRTPSLLEQEVKPSTELE YLGP D EHD -COOH (Abe etal. 164 ) Note : The YXX motif is underlined, and the...”
• Establishing mammalian GLUT kinetics and lipid composition influences in a reconstituted-liposome system.
  Suades, Nature communications 2023
  • “...previously in 33 , 34 . hGLUT1 (Uniprot: P11166), hGLUT3 (Uniprot: P11169), and hGLUT4 (Uniprot: P14672) encoding genes were synthesized and cloned into the mammalian expression pCDNA3.1 (+) by GeneArt. A TEV cleavage site (ENLYFQ) and eGFP (Uniprot: C5MKY7) sequence containing a twin strep tag were...”
• The proteome and phosphoproteome of circulating extracellular vesicle-enriched preparations are associated with characteristic clinical features in type 1 diabetes.
  Casu, Frontiers in endocrinology 2023
  • “...0.57 1.56E-10 9.09E-08 P02749 APOH 2.00 0.20 4.13E-04 0.0399 Q5T0T0 MARCHF8 1.95 -0.52 1.31E-07 2.53E-05 P14672 SLC2A4 0.88 -0.95 9.48E-04 0.0689 P01031 C5 -1.45 -0.69 1.34E-04 0.0156 O75069 TMCC2 -1.47 -0.76 6.08E-04 0.0505 Q9H4B7 TUBB1 -1.76 0.06 8.95E-07 0.0001 Log2FC, base 2 logarithm of fold change;...”
• Exploring the mechanism of Alisma orientale for the treatment of pregnancy induced hypertension and potential hepato-nephrotoxicity by using network pharmacology, network toxicology, molecular docking and molecular dynamics simulation
  Liao, Frontiers in pharmacology 2022
  • “...Matrilysin MMP7 P09237 Treat 144 Solute carrier family 2, facilitated glucose transporter member 4 SLC2A4 P14672 Toxic 67 Neutrophil collagenase MMP8 P22894 Treat 145 Transcription factor Sp1 SP1 P08047 Toxic 68 Nitric oxide synthase, inducible NOS2 P35228 Treat 146 Sterol regulatory element-binding protein 1 SREBF1 P36956...”
• Integrated Network Pharmacology and Gut Microbiota Study on the Mechanism of Huangqin Decoction in Treatment Diabetic Enteritis.
  Xu, Applied bionics and biomechanics 2022
  • “...24 SLPI Antileukoproteinase P03973 25 SLC2A4 Solute carrier family 2, facilitated glucose transporter member 4 P14672 26 SELE E-selectin P16581 27 RELA Transcription factor p65 Q04206 28 PRSS1 Trypsin-1 P07477 29 PPARG Peroxisome proliferator-activated receptor gamma Q08209 30 NOS3 Nitric oxide synthase, endothelial P37231 31 NOS2...”
• More

GLUT4_RAT / P19357 Solute carrier family 2, facilitated glucose transporter member 4; Glucose transporter type 4, insulin-responsive; GLUT-4 from Rattus norvegicus (Rat) (see 6 papers)
XP_006246658 solute carrier family 2, facilitated glucose transporter member 4 isoform X2 from Rattus norvegicus
66% identity, 96% coverage

• function: Insulin-regulated facilitative glucose transporter, which plays a key role in removal of glucose from circulation (PubMed:2211693, PubMed:2645527, PubMed:2649253). Response to insulin is regulated by its intracellular localization: in the absence of insulin, it is efficiently retained intracellularly within storage compartments in muscle and fat cells (PubMed:2211693, PubMed:2645527, PubMed:2649253). Upon insulin stimulation, translocates from these compartments to the cell surface where it transports glucose from the extracellular milieu into the cell (PubMed:2211693, PubMed:2645527, PubMed:2649253).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  subunit: Binds to DAXX. Interacts via its N-terminus with SRFBP1 (By similarity). Interacts with NDUFA9 (PubMed:16396496). Interacts with TRARG1; the interaction is required for proper SLC2A4 recycling after insulin stimulation (By similarity).
• African walnut (Plukenetia conophora) oil promotes glucose uptake while improving energy metabolism and steroidogenesis and maintaining surface architecture in rat testes.
  Erukainure, Frontiers in nutrition 2024
  • “...2.15.1 Protein target selection and preparation The active site amino acid sequence of GLUT4 protein (P19357) was retrieved from https://www.uniprot.org/ , and the structure was modeled with https://swissmodel.expasy.org/ . The protein was prepared and refined using Discovery Studio 2021 ( https://discover.3ds.com/discovery-studio-visualizer-download ) for docking. This was...”
• Intestinal changes associated with fluoride exposure in rats: Integrative morphological, proteomic and microbiome analyses
  Dionizio, Chemosphere 2021
  • “...with changed expression interacted with Solute carrier family 2, facilitated glucose transporter member 4 (GLUT4, P19357), ( Fig. 1A ), Mitogen-activated protein kinase 3 (MAPK3, P21708), 5-AMP-activated protein kinase catalytic subunit alpha-1 (AMPK subunit alpha-1, P54645), 5-AMP-activated protein kinase subunit beta-1 (AMPK subunit beta-1, P80386), Polyubiquitin...”
  • “...Dynein light chain 1 , cytoplasmic (P63170), Polyubiquitin-6 (Q63429) ( Fig. 2A ) or GLUT4 (P19357), MAPK3 (P21708), Dystrophin (P11530), Calcium/calmodulin-dependent protein kinase kinase 1 (CaM-kinase kinase 1, P97756) and Regulating synaptic membrane exocytosis protein 1 (Q9JIR4) ( Fig. 2B ). Subchronic fluoride exposure reduced Gastrotropin...”
• Identification of Aortic Proteins Involved in Arterial Stiffness in Spontaneously Hypertensive Rats Treated With Perindopril:A Proteomic Approach
  Miotto, Frontiers in physiology 2021
  • “...proteins Mitogen-activated protein kinase 3 (P21708), Solute carrier family 2, facilitated glucose transporter member 4 (P19357), UV excision repair protein RAD23 homolog B (Q4KMA2), Heterogeneous nuclear ribonucleoprotein K (P61980), Small ubiquitin-related modifier 3 (Q5XIF4), Desmin (P48675), Gap junction alpha-1 protein (P08050), and Tumor necrosis factor (P16599);...”
  • “...three main interaction proteins, Mitogen-activated protein kinase 3 (P21708), solute carrier muscle family-2 glucose transporter (P19357), and UV excision Rad23 homolog (Q4KMA2), that interacted with several proteins up- or downregulated in the aorta sample, after SHRc Wistar comparisons, like long-chain specific acyl-CoA dehydrogenase- mitochondrial (P15650), heat...”
• Long-Term Lead Exposure Since Adolescence Causes Proteomic and Morphological Alterations in the Cerebellum Associated with Motor Deficits in Adult Rats
  Leão, International journal of molecular sciences 2020
  • “...by its accession ID from Uniprot. Solute carrier family 2, facilitated glucose transporter member 4 (P19357); Sideroflexin-1 (Q63965); Ubiquitin-conjugating enzyme E2 N (Q9EQX9); Peroxiredoxin-6 (O35244); Dihydrolipoyl dehydrogenase, mitochondrial (Q6P6R2); Aspartate aminotransferase, mitochondrial (P00507); Isoaspartyl peptidase/L-asparaginase (Q8VI04); Runt-related transcription factor 2 (Q9Z2J9); Nicalin (Q5XIA1); Mammalian ependymin-related protein...”
• Inflammation and apoptosis accelerate progression to irreversible atrophy in denervated intrinsic muscles of the hand compared with biceps: proteomic analysis of a rat model of obstetric brachial plexus palsy.
  Yu, Neural regeneration research 2020
  • “...A0A0G2K5G8 * , Q3HSE5 * , P12369 * , G3V8R5 * , Q9Z2S9 * , P19357, M0RD75, D3ZM60, P13286, P27881, P62142, F1LLZ7, A2RRU1, P97531, G3V8V3, Q4G050, A0A0G2K9C8, Q6P727, Q9Z1N1 0.002 Pyruvate metabolism 17 A0A0G2K5G8 * , P52873 * , Q6P7Q4, P11980, P04636, A0A0G2K4C6, P35745, F7FKI5, P17764,...”
  • “...AMPK signaling 16 P12785 * , A0A0G2K5G8 * , Q3HSE5 * , G3V8R5 * , P19357, A0A0G2JSQ0, Q52KS1, A2RRU1, Q5XIJ7, Q5PQN8, D4AC16, A0A0G2JYA4, Q9Z1N1, P62716, C9DRP4, Q63704 0.005 Fatty acid metabolism 12 P12785 * , A0A0G2K5G8 * , Q63151 * , P33124, P17764, Q9WVK7, Q9WVK3, P08503,...”
• Chronic treatment with fluoride affects the jejunum: insights from proteomics and enteric innervation analysis
  Dionizio, Scientific reports 2018
  • “...in expression interacted with Solute carrier family 2 , facilitated glucose transporter member 4 (GLUT4; P19357) and Small ubiquitin-related modifier 3 (Q5XIF4) (Fig. 5A ) or with Polyubiquitin-C (Q63429) and Elongation factor 2 (P05197) (Fig. 5B ). As for the group treated with 50 mgF/L, most...”
  • “...dissociation inhibitor alpha (P50398) and Solute carrier family 2 , facilitated glucose transporter member 4 (P19357). The access numbers of the unique proteins of the control (dark red nodes) correspond to: Aconitate hydratase , mitochondrial (Q9ER34), Cytochrome c oxidase subunit 4 isoform 1 , mitochondrial (P10888)...”
• Hydrogen sulfide increases glutathione biosynthesis, and glucose uptake and utilisation in C2C12 mouse myotubes.
  Parsanathan, Free radical research 2018
  • “...(D4ADU2), and a similar comparison of sequences of Slc2a4/GLUT4 human (P14672), mouse (P14142), and rat (P19357) indicated that the localization of cysteine residues is conserved in all species. Amino acid sequences were aligned with default parameters and checked for transmembrane annotation to rule out the transmembrane...”
• Diabetic Retinopathy and Laser Therapy in Rats: A Protein-Protein Interaction Network Analysis.
  Safaei, Journal of lasers in medical sciences 2017
• More
• The SIRT3/GSK-3β/GLUT4 axis might be involved in maternal hypoxia-induced skeletal muscle insulin resistance in old male rat offspring.
  Zhu, Toxicology and applied pharmacology 2024 (PubMed)
  • GeneRIF: The SIRT3/GSK-3beta/GLUT4 axis might be involved in maternal hypoxia-induced skeletal muscle insulin resistance in old male rat offspring.
• Immunoglobulin-Mediated Cardiac Protection From Ischemia/Reperfusion Injury in Diabetic Rats Is Associated With Endothelial Nitric Oxide Synthase/Glucose Transporter-4 Signaling Pathway.
  Babiker, Journal of cardiovascular pharmacology 2024 (PubMed)
  • GeneRIF: Immunoglobulin-Mediated Cardiac Protection From Ischemia/Reperfusion Injury in Diabetic Rats Is Associated With Endothelial Nitric Oxide Synthase/Glucose Transporter-4 Signaling Pathway.
• Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
  Knudsen, eLife 2023
  • GeneRIF: Microtubule-mediated GLUT4 trafficking is disrupted in insulin-resistant skeletal muscle.
• Impact of Normal and Overweight Pregnancy in GLUT4 and Glucose-Dependent Vascular Contractility.
  Juarez, Pharmacology 2023 (PubMed)
  • GeneRIF: Impact of Normal and Overweight Pregnancy in GLUT4 and Glucose-Dependent Vascular Contractility.
• Exercise preconditioning promotes myocardial GLUT4 translocation and induces autophagy to alleviate exhaustive exercise-induced myocardial injury in rats.
  Guo, Journal of molecular histology 2023 (PubMed)
  • GeneRIF: Exercise preconditioning promotes myocardial GLUT4 translocation and induces autophagy to alleviate exhaustive exercise-induced myocardial injury in rats.
• Electrical stimulated GLUT4 signalling attenuates critical illness-associated muscle wasting.
  Addinsall, Journal of cachexia, sarcopenia and muscle 2022
  • GeneRIF: Electrical stimulated GLUT4 signalling attenuates critical illness-associated muscle wasting.
• Hydroxytyrosol modifies skeletal muscle GLUT4/AKT/Rac1 axis in trained rats.
  Casuso, Journal of cellular physiology 2021 (PubMed)
  • GeneRIF: Hydroxytyrosol modifies skeletal muscle GLUT4/AKT/Rac1 axis in trained rats.
• Complexin-2 redistributes to the membrane of muscle cells in response to insulin and contributes to GLUT4 translocation.
  Pavarotti, The Biochemical journal 2021 (PubMed)
  • GeneRIF: Complexin-2 redistributes to the membrane of muscle cells in response to insulin and contributes to GLUT4 translocation.
• More

7wsmA / P14672 Cryo-em structure of human glucose transporter glut4 bound to cytochalasin b in lipid nanodiscs (see paper)
68% identity, 93% coverage

• Ligand: cytochalasin b (7wsmA)

LOC109056673 solute carrier family 2, facilitated glucose transporter member 3-like from Cyprinus carpio
59% identity, 88% coverage

• Comparative Transcriptome Analysis of Organ-Specific Adaptive Responses to Hypoxia Provides Insights to Human Diseases
  Hung, Genes 2022
  • “...34.80 LOC109048372 EGLN1 4.70 36.86 377.67 123.97 17.58 LOC109053018 IVNS1ABP 3.80 3.24 6.78 8.36 4.73 LOC109056673 SLC2A1 3.36 4.00 75.36 97.45 6.66 LOC109057161 HSPA1L 4.49 5.42 24.77 9.48 8.31 LOC109065938 VEGFA 3.94 3.24 5.90 6.53 4.62 LOC109068950 - 12.29 5.71 46.28 27.97 17.89 LOC109069551 GYS1 3.01...”

I3L2R4 Solute carrier family 2, facilitated glucose transporter member 4 from Homo sapiens
68% identity, 86% coverage

• Peptidome analysis of umbilical cord mesenchymal stem cell (hUC-MSC) conditioned medium from preterm and term infants.
  Wang, Stem cell research & therapy 2020
  • “...LPLIGCVLLLIALVVSLIILFQFW 0.45 2.60 5.00 Q8TE73 DNAH5 Dynein heavy chain 5, axonemal AQTKRLVGDVLLATAFLSYSGP 1.82 2.62 5.48 I3L2R4 SLC2A4 Solute carrier family 2 (Facilitated glucose transporter), member 4, isoform CRA_b IGAGVVNTVFTLVSVLLVERAGRRTLHLLGLA 0.62 2.63 7.43 P42167 TMPO Lamina-associated polypeptide 2, isoforms beta/gamma KSEKTKKGRSIPVWIKILLFVVVAV 0.49 2.66 6.27 Q9BW11-4 MXD3 Max...”

XP_002667169 solute carrier family 2, facilitated glucose transporter member 3 from Danio rerio
58% identity, 89% coverage

• The developmental effects of pentachlorophenol on zebrafish embryos during segmentation: A systematic view
  Xu, Scientific reports 2016
  • “...(alpha) ENO1 64.19 4 egln2 XP_688016 egl-9 family hypoxia-inducible factor 2 EGLN2 42.74 5 slc2a3b XP_002667169 solute carrier family 2 (facilitated glucose transporter), member 3b SLC2A1 42.08 6 igfbp1a NM_173283 insulin-like growth factor binding protein 1a IGFBP1 37.75 7 LOC100150452 XP_001922963 sodium- and chloride-dependent creatine transporter...”

B7Z5A7 cDNA FLJ57557, highly similar to Solute carrier family 2, facilitated glucose transporter member 3 from Homo sapiens
67% identity, 82% coverage

• Pharmacoproteomic analysis reveals that metapristone (RU486 metabolite) intervenes E-cadherin and vimentin to realize cancer metastasis chemoprevention
  Yu, Scientific reports 2016
  • “...TGF-beta receptor type-1 4 0.335** 74 321 20.2 P98172 Ephrin-B1 5 0.539* 75 192 25.3 B7Z5A7 cDNA FLJ57557 4 0.454* 76 186 39.4 B4E324 cDNA FLJ60397 4 0.552* 77 200 15.1 Q9H5V8-2 Isoform 2 of CUB domain-containing protein 1 10 0.648* 78 249 18.6 Q96T88-2 Isoform...”

NP_001090886 solute carrier family 2, facilitated glucose transporter member 2 from Sus scrofa
53% identity, 93% coverage

• Transmissible Gastroenteritis Virus Infection Enhances SGLT1 and GLUT2 Expression to Increase Glucose Uptake.
  Dai, PloS one 2016
  • GeneRIF: the effects of Transmissible gastroenteritis virus infection on glucose uptake and SGLT1 and GLUT2 expression, are reported.
• Developmental changes in the expression of the GLUT2 and GLUT4 genes in the longissimus dorsi muscle of Yorkshire and Tibetan pigs.
  Liang, Genetics and molecular research : GMR 2015 (PubMed)
  • GeneRIF: analysis of time- and breed-specific expression patterns of GLUT2 and GLUT4, which highlight their potential as candidate genes for assessing adipose deposition and muscle development in pigs

NP_997061 solute carrier family 2, facilitated glucose transporter member 2 from Gallus gallus
56% identity, 87% coverage

• Temporospatial study of hexose transporters and mucin in the epithelial cells of chicken (Gallus gallus domesticus) small intestine.
  Hussar, Polish journal of veterinary sciences 2017 (PubMed)
  • GeneRIF: The integral membrane proteins glucose transporter-2 and -5 (GLUT-2 and GLUT-5) that facilitate the transport of hexoses across epithelial cell layers that separate distinct compartments in organism were detected in the chicken intestinal epithelial cells using immunohistochemical labeling with polyclonal primary antibodies.
• Delayed access of low body weight-selected chicks to food at hatch is associated with up-regulated pancreatic glucagon and glucose transporter gene expression.
  Parker, Comparative biochemistry and physiology. Part A, Molecular & integrative physiology 2015 (PubMed)
  • GeneRIF: Data show there was an interaction of line and nutrition on preproglucagon (PPG) and glucose transporter GLUT2 mRNA expression.
• Characterisation of glucose transporter (GLUT) gene expression in broiler chickens.
  Kono, British poultry science 2005 (PubMed)
  • GeneRIF: The extent of mRNA expression of GLUT1, GLUT2, GLUT3 and GLUT8 in chickens intrinsically lacking GLUT4 is reported.

Q90592 Solute carrier family 2, facilitated glucose transporter member 2 from Gallus gallus
56% identity, 87% coverage

• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...musculus) GLUT2; P12336 for rat (Rattus norvegicus) GLUT2; Q90592 for chicken (Gallus gallus) GLUT2; Q102R8 for zebrafish (Danio rerio) GLUT2; P32465 for yeast...”

H2QNR0 Solute carrier family 2, facilitated glucose transporter member 2 from Pan troglodytes
53% identity, 93% coverage

• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...P14672 for human GLUT4; P11168 for human GLUT2; H2QNR0 (predicted) for chimpanzee (Pan troglodytes); P14246 for mouse (Mus musculus) GLUT2; P12336 for rat...”

SLC2A2 / P11168 solute carrier family 2, facilitated glucose transporter member 2 from Homo sapiens (see 3 papers)
GTR2_HUMAN / P11168 Solute carrier family 2, facilitated glucose transporter member 2; Glucose transporter type 2, liver; GLUT-2 from Homo sapiens (Human) (see 9 papers)
TC 2.A.1.1.29 / P11168 Glucosamine/glucose uniporter, Glut-2; it may also transport dehydroascorbate (Mardones et al., 2011; from Homo sapiens (Human) (see 7 papers)
NP_000331 solute carrier family 2, facilitated glucose transporter member 2 isoform 1 from Homo sapiens
53% identity, 93% coverage

• function: Facilitative hexose transporter that mediates the transport of glucose, fructose and galactose (PubMed:16186102, PubMed:23396969, PubMed:28083649, PubMed:8027028, PubMed:8457197). Likely mediates the bidirectional transfer of glucose across the plasma membrane of hepatocytes and is responsible for uptake of glucose by the beta cells; may comprise part of the glucose-sensing mechanism of the beta cell (PubMed:8027028). May also participate with the Na(+)/glucose cotransporter in the transcellular transport of glucose in the small intestine and kidney (PubMed:3399500). Also able to mediate the transport of dehydroascorbate (PubMed:23396969).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
  catalytic activity: L-dehydroascorbate(out) = L-dehydroascorbate(in) (RHEA:60380)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
• substrates: Glucosamine, glucose
  tcdb comment: Maulén et al., 2003), and cotransport water against an osmotic gradient (Naftalin, 2008). Mutations may give rise to the rare autosomal recessive Fanconi-Bickel syndrome (Batool et al. 2019)
• (Re-)Viewing Role of Intracellular Glucose Beyond Extracellular Regulation of Glucose-Stimulated Insulin Secretion by Pancreatic Cells
  Firdos,, ACS omega 2024
  • “...musculus P14246 SLC2A2 solute carrier family 2, facilitated glucose transporter member 2 524 H. sapiens P11168 RPA1 replication protein A 70kDa DNA-binding subunit 623 M. musculus Q8VEE4 RPA1 replication protein A 70kDa DNA-binding subunit 616 H. sapiens P27694 XRCC6/XRCC5 Ku7080 heterodimer A chain 609 H. sapiens...”
• Understanding the molecular mechanisms of human diseases: the benefits of fission yeasts.
  Acs-Szabo, Microbial cell (Graz, Austria) 2024
• Do mitochondria use efflux pumps to protect their ribosomes from antibiotics?
  Islam, Microbiology (Reading, England) 2023
  • “...6.7E^12 Q8WW24, 1.4E^14 [ 79, 112 ] HXT13, NCU01633 Q1K4S3 MFS Q8J2J7, 2.1E^85 P23586, 1.2E^52 P11168, 2.6E^48 [ 79 ] NCU04809 Q756M6 MFS T2AWG3, 0.0014 Q8GYF4, 1.4E^24 B3KT41, 0.0022 [ 79 ] NCU09551 Q7S2B0 MFS G1UAY0, 2.3E^6 Q56ZZ7, 2.3E^7 Q8NBP5, 8.4E^9 [ 78 ] NCU10021 Q7S0I5...”
• A Network Pharmacology Method Combined with Molecular Docking Verification to Explore the Therapeutic Mechanisms Underlying Simiao Pill Herbal Medicine against Hyperuricemia
  Qian, BioMed research international 2023
  • “...P05181 54 CYP11A1 P05108 15 PPARG P37231 55 INS P01308 16 ESR1 P03372 56 SLC2A2 P11168 17 SELE P16581 57 CXCL8 P10145 18 CAT P04040 58 CRP P02741 19 MYC P01106 59 GCG P01275 20 TGFB1 P01137 60 UCP2 P55851 21 GPT P24298 61 CYP2C8 P10632...”
• Extracellular Vesicles from Human Adipose-Derived Mesenchymal Stem Cells: A Review of Common Cargos.
  Alonso-Alonso, Stem cell reviews and reports 2022
  • “...[ 52 , 65 ] Solute carrier family 2, facilitated glucose transporter member 2* GTR2_HUMAN P11168 SLC2A2 [ 52 ] Solute carrier family 2, facilitated glucose transporter member 3* GTR3_HUMAN P11169 SLC2A3 [ 65 ] Solute carrier family 2, facilitated glucose transporter member 5* GTR5_HUMAN P22732...”
• Halophila beccarii extract ameliorate glucose uptake in 3T3-L1 adipocyte cells and improves glucose homeostasis in streptozotocin-induced diabetic rats.
  Mathakala, Heliyon 2022
  • “...transporter type (GLUT) 4, sequence was retrieved from UniProt web site (http://www.uniprot.org/; UniProt Entry ID: P11168 and P14672) and subjected to BLASTp program to obtain their homologue structures from Protein Data Bank. After BLASTp, the obtained PDB IDs 5EQG, 4PYP and 4ZW9 were selected as templates...”
• Structural comparison of GLUT1 to GLUT3 reveal transport regulation mechanism in sugar porter family.
  Custódio, Life science alliance 2021
  • “...members of the Sugar Porter family. Alignment between human GLUT1 (UniProt P11166 ), GLUT2 (UniProt P11168 ), GLUT3 (UniProt P11169 ), GLUT4 (UniProt P14672 ), rGLUT5 (UniProt P43427 ), bGLUT5 (UniProt P58353 ), atSTP10 (UniProt Q9LT15 ), XylE (UniProt P0AGF4 ), and GlcPse (UniProt A0A0H2VG78 )....”
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...from a nonautomated procedure. Sequences were obtained from the UniProt database 30 (GLUT1: P11166; GLUT2: P11168; GLUT3: P11169; GLUT4: P14672; GLUT5: P22732; GLUT6: Q9UGQ3; GLUT7: Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked...”
• More
• Transmissible Gastroenteritis Virus Infection Enhances SGLT1 and GLUT2 Expression to Increase Glucose Uptake
  Dai, PloS one 2016
  • “.... 1 88% SGLT1 NM-001012297 . 1 NP_001035915 . 1 88% GLUT2 AMN88560 . 1 NP_000331 . 1 87% Glucose uptake experiments 2-[ 3 H]deoxyglucose (2-DG) uptake experiments were carried out according to the method described by Henriksen et al ., but with modifications [ 14...”

Q102R8 Glucose transporter 2 from Danio rerio
NP_001036186 solute carrier family 2, facilitated glucose transporter member 2 from Danio rerio
56% identity, 94% coverage

• Assessment of Insulin, GLUT2 and inflammatory cytokines genes expression in pancreatic β-Cells in zebrafish (Danio rario) with overfeeding diabetes induction w/o glucose
  Mohammadi, Journal of diabetes and metabolic disorders 2021
  • “...CAGCCTGGATGGCAACGTA AY427649 AY427649 AB126869 AB126869 CU695198 CU695198 Q102R8 Q102R8 Insulin-F Insulin -R bACT_F bACT_R O73727 O73727 AF057040 AF057040 1569...”
• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...GLUT2; Q90592 for chicken (Gallus gallus) GLUT2; Q102R8 for zebrafish (Danio rerio) GLUT2; P32465 for yeast (Saccharomyces cerevisiae) HXT1; and Q9FRL3...”
• GLUT2-mediated glucose uptake and availability are required for embryonic brain development in zebrafish.
  Marín-Juez, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism 2015
  • GeneRIF: Glut2 has an essential role during brain development by facilitating the uptake and availability of glucose and support the involvement of glut2 in brain glucose sensing.
• Evolutionary structural and functional conservation of an ortholog of the GLUT2 glucose transporter gene (SLC2A2) in zebrafish.
  Castillo, American journal of physiology. Regulatory, integrative and comparative physiology 2009 (PubMed)
  • GeneRIF: The structure and function of GLUT2 has been remarkably well conserved during vertebrate evolution and open the way for the use of zebrafish as a model species in which to study the biology and pathophysiology of GLUT2.

U3IRP7 Solute carrier family 2 member 2 from Anas platyrhynchos platyrhynchos
56% identity, 88% coverage

• Severe pantothenic acid deficiency induces alterations in the intestinal mucosal proteome of starter Pekin ducks
  Tang, BMC genomics 2021
  • “...1 (Fragment) MGST1 1.57 2.66E-02 U3I5T1 Glutamate-cysteine ligase catalytic subunit GCLC 1.57 9.62E-03 Intestinal absorption U3IRP7 Solute carrier family 2 member 2 SLC2A2 5.11 3.17E-02 U3IFN5 Villin 1 VIL1 3.12 1.13E-08 U3IY96 Ezrin EZR 2.00 1.61E-05 U3IUS6 Monoacylglycerol O-acyltransferase 2 MOGAT2 2.28 5.35E-03 TCA, tricarboxylic acid...”

GTR2_RAT / P12336 Solute carrier family 2, facilitated glucose transporter member 2; Glucose transporter type 2, liver; GLUT-2 from Rattus norvegicus (Rat) (see paper)
51% identity, 94% coverage

• function: Facilitative hexose transporter that mediates the transport of glucose, fructose and galactose (PubMed:3048704). Likely mediates the bidirectional transfer of glucose across the plasma membrane of hepatocytes and is responsible for uptake of glucose by the beta cells; may comprise part of the glucose-sensing mechanism of the beta cell (PubMed:3048704). May also participate with the Na(+)/glucose cotransporter in the transcellular transport of glucose in the small intestine and kidney (By similarity). Also able to mediate the transport of dehydroascorbate (By similarity).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
  catalytic activity: L-dehydroascorbate(out) = L-dehydroascorbate(in) (RHEA:60380)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
• Transcriptomic and proteomic investigations identify PI3K-akt pathway targets for hyperthyroidism management in rats via polar iridoids from radix Scrophularia.
  Zhang, Heliyon 2024
  • “...1.5763 0.0463 0.5339 0.0238 6 F1LMF4 Fat3 Protocadherin Fat 3 1.5600 0.0006 0.6169 0.0010 7 P12336 Slc2a2 Solute carrier family 2, facilitated glucose transporter member 2 1.4963 0.0001 0.5445 0.0000 8 A0A0G2K7H6 Serpinb8 Protein Serpinb8 1.4770 0.0000 0.7561 0.0000 9 M0R979 Thbs1 Protein Thbs1 1.4022 0.0113...”
• Extracellular vesicles released by steatotic hepatocytes alter adipocyte metabolism
  Mleczko, Journal of extracellular biology 2022
  • “...AL4A1_RAT P0C29 1.49 3.05E02 Delta1pyrroline5carboxylate dehydrogenase, mitochondrial ACON_RAT Q9ER34 1.49 3.67E02 Aconitate hydratase, mitochondrial GTR2_RAT P12336 1.52 3.16E04 Solute carrier family 2, facilitated glucose transporter member 2 IVD_RAT P12007 1.53 2.32E03 IsovalerylCoA dehydrogenase, mitochondrial PLMN_RAT Q01177 1.53 1.10E02 Plasminogen AGT2_RAT Q64565 1.53 9.53E03 Alanineglyoxylate aminotransferase 2,...”
• Black bean peptides inhibit glucose uptake in Caco-2 adenocarcinoma cells by blocking the expression and translocation pathway of glucose transporters.
  Mojica, Toxicology reports 2018
  • “...acquired from the Protein Data Bank website ( www.rcsb.org/pdb/home/home.do ). The protein sequence of GLUT2 (P12336, UniProtKB database) was used for homology modeling of GLUT2 and was carried out by using template threading alignments by I-TASSER server [ 21 ]. The template structure used by I-TASSER...”
• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...(Pan troglodytes); P14246 for mouse (Mus musculus) GLUT2; P12336 for rat (Rattus norvegicus) GLUT2; Q90592 for chicken (Gallus gallus) GLUT2; Q102R8 for...”
• Clusters of conserved beta cell marker genes for assessment of beta cell phenotype.
  Martens, PloS one 2011
  • “...1 Q920J4 Txnl1 - 0.00120 - - Thioredoxin like protein 1 1.5 24 2 1 P12336 Slc2a2 - 0.00091 - - Solute carrier family 2 facilitated glucose transporter member 2 28.6 18 1 1 Q9R064 Gorasp2 - 0.00079 - - Golgi reassembly stacking protein 2 1.5...”
• pkaPS: prediction of protein kinase A phosphorylation sites with the simplified kinase-substrate binding model.
  Neuberger, Biology direct 2007
  • “...T GILDSLGRFFGSDRGAPKRGSGK Kishimoto et al . 1985 [37] -0.158 0.733 T 2 , T 4 P12336 489 VLVFTLFTFFKVPETKGK S FDEIAAEFRKKSGSAPPRKATVQ Thorens et al . 1996 [61] -0.174 0.560 T 4 , T 7 P24155 643 RFKQEGVLSPKVGMDYRT S ILRPGGSEDASTMLKQFLGRDPK Tullai et al . 2000 [69] -0.264 0.145...”
  • “...[ 62 ]. As a consequence, the entry was replaced by the corresponding rat sequence P12336, with the reported phosphorylation sites located at positions 489, 501, 503 and 510. The exact localization of the PKA-dependent phosphorylation sites in the PTH/PTHrP type I receptor (P25107) was performed...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P11166 P17809 P13355 P11167 P20303 S37476 P11168 P14246 P12336 P47842 P28568 P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310...”

XP_011511389 solute carrier family 2, facilitated glucose transporter member 2 isoform X1 from Homo sapiens
58% identity, 83% coverage

• Association Between the SLC2A2 Gene rs1499821 Polymorphism and Caries Susceptibility.
  Liu, Genetic testing and molecular biomarkers 2023 (PubMed)
  • GeneRIF: Association Between the SLC2A2 Gene rs1499821 Polymorphism and Caries Susceptibility.
• The glucose transporter 2 regulates CD8+ T cell function via environment sensing.
  Fu, Nature metabolism 2023
  • GeneRIF: The glucose transporter 2 regulates CD8[+] T cell function via environment sensing.
• Decreased expression of Glucagon-like peptide-1 receptor and Sodium-glucose co-transporter 2 in patients with proliferative diabetic retinopathy.
  Chen, Frontiers in endocrinology 2022
  • GeneRIF: Decreased expression of Glucagon-like peptide-1 receptor and Sodium-glucose co-transporter 2 in patients with proliferative diabetic retinopathy.
• Insulinoma induces a hyperinsulinemia-mediated decrease of GLUT2 and GLP1 receptor in normal pancreatic β-cells.
  Sho, Biochemical and biophysical research communications 2021 (PubMed)
  • GeneRIF: Insulinoma induces a hyperinsulinemia-mediated decrease of GLUT2 and GLP1 receptor in normal pancreatic beta-cells.
• Decreased GLUT2 and glucose uptake contribute to insulin secretion defects in MODY3/HNF1A hiPSC-derived mutant β cells.
  Low, Nature communications 2021
  • GeneRIF: Decreased GLUT2 and glucose uptake contribute to insulin secretion defects in MODY3/HNF1A hiPSC-derived mutant beta cells.
• Identification of new GLUT2-selective inhibitors through in silico ligand screening and validation in eukaryotic expression systems.
  Schmidl, Scientific reports 2021
  • GeneRIF: Identification of new GLUT2-selective inhibitors through in silico ligand screening and validation in eukaryotic expression systems.
• Evidence for a Genotype-Phenotype Correlation in Patients with Pathogenic GLUT2 (SLC2A2) Variants.
  Grünert, Genes 2021
  • GeneRIF: Evidence for a Genotype-Phenotype Correlation in Patients with Pathogenic GLUT2 (SLC2A2) Variants.
• Expressions of Carbohydrate Response Element Binding Protein and Glucose Transporters in Liver Cancer and Clinical Significance.
  Lei, Pathology oncology research : POR 2020
  • GeneRIF: Expressions of Carbohydrate Response Element Binding Protein and Glucose Transporters in Liver Cancer and Clinical Significance.
• More

GTR2_MOUSE / P14246 Solute carrier family 2, facilitated glucose transporter member 2; Glucose transporter type 2, liver; GLUT-2 from Mus musculus (Mouse) (see 3 papers)
NP_112474 solute carrier family 2, facilitated glucose transporter member 2 from Mus musculus
52% identity, 90% coverage

• function: Facilitative hexose transporter that mediates the transport of glucose, fructose and galactose. Likely mediates the bidirectional transfer of glucose across the plasma membrane of hepatocytes and is responsible for uptake of glucose by the beta cells; may comprise part of the glucose-sensing mechanism of the beta cell. May also participate with the Na(+)/glucose cotransporter in the transcellular transport of glucose in the small intestine and kidney. Also able to mediate the transport of dehydroascorbate.
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
  catalytic activity: L-dehydroascorbate(out) = L-dehydroascorbate(in) (RHEA:60380)
  catalytic activity: D-galactose(in) = D-galactose(out) (RHEA:34915)
• (Re-)Viewing Role of Intracellular Glucose Beyond Extracellular Regulation of Glucose-Stimulated Insulin Secretion by Pancreatic Cells
  Firdos,, ACS omega 2024
  • “...1V4S /P35557 SLC2A2 solute carrier family 2, facilitated glucose transporter member 2 523 M. musculus P14246 SLC2A2 solute carrier family 2, facilitated glucose transporter member 2 524 H. sapiens P11168 RPA1 replication protein A 70kDa DNA-binding subunit 623 M. musculus Q8VEE4 RPA1 replication protein A 70kDa...”
• Proteomic Analysis of the Intestinal Resistance to Thyroid Hormone Mouse Model With Thyroid Hormone Receptor Alpha Mutations
  Xi, Frontiers in endocrinology 2022
  • “...Down P42225 Signal transducer and activator of transcription 1 Stat1 DQQPGTFLLR ELSAVTFPDIIR 0.24 0.56 Down P14246 Solute carrier family 2, facilitated glucose transporter member 2 Slc2a2 HVLGVPLDDR VSVIQLFTDANYR 0.67 0.74 Down P16858 Glyceraldehyde-3-phosphate dehydrogenase Gapdh IVSNASCTTNCLAPLAK LISWYDNEYGYSNR 0.58 0.73 Down P14094 Sodium/potassium-transporting ATPase subunit beta-1 Atp1b1...”
• SWATH-Based Comprehensive Determination of the Localization of Apical and Basolateral Membrane Proteins Using Mouse Liver as a Model Tissue.
  Hirano, Biomedicines 2022
  • “...1.95 0.03 Yes Slc9a3r1 P70441 4.74 0.03 Yes Others Ptprg Q05909 1.91 0.07 Potentially Slc2a2 P14246 3.19 0.02 Yes Actn1 Q7TPR4 5.68 0.14 Yes Lsr Q99KG5 1.90 0.01 Yes Abca8a Q8K442 3.09 0.02 Yes Utrn E9Q6R7 5.31 0.06 Yes Ptprd Q64487 1.64 0.08 Potentially Abcc6 Q9R1S7...”
• Unraveling the Proteomic Landscape of Intestinal Epithelial Cell-Derived Exosomes in Mice.
  Ding, Frontiers in physiology 2022
  • “...3 1258.82 0.572 0.001 Down 26 Q91WG0 Ces2c Acylcarnitine hydrolase 671.42 0.570 0.004 Down 27 P14246 Slc2a2 Solute carrier family 2, facilitated glucose transporter member 2 342.70 0.567 0.019 Down 28 P12791 Cyp2b10 Cytochrome P450 2B10 214.30 0.567 0.026 Down 29 Q08652 Rbp2 Retinol-binding protein 2...”
  • “...Down 31 Q8CIW6 Slc26a6 Solute carrier family 26 member 6 639.88 0.579 0.013 Down 32 P14246 Slc2a2 Solute carrier family 2, facilitated glucose transporter member 2 342.70 0.567 0.019 Down SCHEDULE 2 Marker protein information of intestinal cell cluster. No. Accession Gene symbol Description Score Fold...”
• Anti-Inflammatory and Immune Modulatory Effects of Synbio-Glucan in an Atopic Dermatitis Mouse Model.
  Kim, Nutrients 2021
  • “...Q9EQ16 18 Lungkine 2.718 Cxcl15 Q9WVL7 19 VEGFC 2.509 Vegfc P97953 20 Glut2 2.441 Slc2a2 P14246 21 Endostatin 2.422 Col18a1 P39061 22 RANTES 2.364 Ccl5 P30882 23 CTACK 2.329 Ccl27 Q9Z1X0 24 LIF 2.310 Lif P09056 25 IL-28/IFN-lambda 2.298 Il28b Q8CGK6 26 TCA-3 2.284 Ccl1 P10146...”
• Comparison of the presentation of atopic dermatitis induced by trinitrochlorobenzene and house dust mite in NC/Nga mice.
  Kim, Journal of veterinary science 2020
  • “...P39061 8 IL-27 3.421 IL27 Q8K3I6 9 IL-22 3.314 IL22 Q9JJY9 10 Glut2 3.270 SLC2A2 P14246 11 Common gamma chain/IL-2 R gamma 3.226 IL2RG P34902 12 IL-1 R4/ST2 3.221 IL1RL1 P14719 13 ICAM-2/CD102 3.098 ICAM2 P35330 14 CRP 3.011 CRP P14847 15 bFGF 3.011 FGF2 P15655...”
• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...human GLUT2; H2QNR0 (predicted) for chimpanzee (Pan troglodytes); P14246 for mouse (Mus musculus) GLUT2; P12336 for rat (Rattus norvegicus) GLUT2; Q90592 for...”
• The identification of potential factors associated with the development of type 2 diabetes: a quantitative proteomics approach.
  Lu, Molecular & cellular proteomics : MCP 2008
• More
• Sema4D deficiency enhances glucose tolerance through GLUT2 retention in hepatocytes.
  Zhang, Journal of translational medicine 2024
  • GeneRIF: Sema4D deficiency enhances glucose tolerance through GLUT2 retention in hepatocytes.
• Transcription factor c-Maf deletion improves streptozotocin-induced diabetic nephropathy by directly regulating Sglt2 and Glut2.
  Fujino, JCI insight 2023
  • GeneRIF: Transcription factor c-Maf deletion improves streptozotocin-induced diabetic nephropathy by directly regulating Sglt2 and Glut2.
• Normal β-Cell Glut2 Expression Is not Required for Regulating Glucose-Stimulated Insulin Secretion and Systemic Glucose Homeostasis in Mice.
  Bathina, Biomolecules 2023
  • GeneRIF: Normal beta-Cell Glut2 Expression Is not Required for Regulating Glucose-Stimulated Insulin Secretion and Systemic Glucose Homeostasis in Mice.
• Loss of function of renal Glut2 reverses hyperglycaemia and normalises body weight in mouse models of diabetes and obesity.
  de, Diabetologia 2022
  • GeneRIF: Loss of function of renal Glut2 reverses hyperglycaemia and normalises body weight in mouse models of diabetes and obesity.
• GLUT2 expression by glial fibrillary acidic protein-positive tanycytes is required for promoting feeding-response to fasting.
  Barahona, Scientific reports 2022
  • GeneRIF: GLUT2 expression by glial fibrillary acidic protein-positive tanycytes is required for promoting feeding-response to fasting.
• The phosphatidylserine flippase β-subunit Tmem30a is essential for normal insulin maturation and secretion.
  Yang, Molecular therapy : the journal of the American Society of Gene Therapy 2021
  • GeneRIF: The phosphatidylserine flippase beta-subunit Tmem30a is essential for normal insulin maturation and secretion.
• Activation of AMPK pathway compromises Rab11 downregulation-mediated inhibition of Schwann cell proliferation in a Glut1 and Glut3-dependent manner.
  Li, Neuroscience letters 2020 (PubMed)
  • GeneRIF: Activation of AMPK pathway compromises Rab11 downregulation-mediated inhibition of Schwann cell proliferation in a Glut1 and Glut3-dependent manner.
• Estimating and interpreting nonlinear receptive field of sensory neural responses with deep neural network models.
  Keshishian, eLife 2020
  • GeneRIF: Estimating and interpreting nonlinear receptive field of sensory neural responses with deep neural network models.
• More

GTR1_DROME / Q8IRI6 Glucose transporter type 1 from Drosophila melanogaster (Fruit fly) (see paper)
51% identity, 32% coverage

• function: Facilitative glucose transporter.

NP_001261233 glucose transporter 1, isoform R from Drosophila melanogaster
50% identity, 58% coverage

• Glut1 Functions in Insulin-Producing Neurons to Regulate Lipid and Carbohydrate Storage in Drosophila.
  Kauffman, Biomolecules 2024
  • GeneRIF: Glut1 Functions in Insulin-Producing Neurons to Regulate Lipid and Carbohydrate Storage in Drosophila.
• Glut-1 intensity and pattern of expression in thymic epithelial tumors are predictive of WHO subtypes.
  Thomas, Pathology, research and practice 2015 (PubMed)
  • GeneRIF: Glut-1 expression globally depended on histological subtypes and the staining patterns (diffuse or zonal) were different between thymic carcinomas and type B3 thymomas
• Regional heterogeneity in gene expression profiles: a transcript analysis in human and rat heart.
  Sharma, Cardiology 2003 (PubMed)
  • GeneRIF: Glucose transporter 1 transcript levels were higher in the right ventricle than the left ventricle.
• Glut-1 glucose transporter expression in esophageal squamous cell carcinoma is associated with tumor aggressiveness.
  Kato, Anticancer research (PubMed)
  • GeneRIF: Glut-1 glucose transporter expression in esophageal squamous cell carcinoma is associated with tumor aggressiveness.

E2C2M2 Glucose transporter type 1 from Harpegnathos saltator
50% identity, 65% coverage

• A proteomic insight into the midgut proteome of Ornithodoros moubata females reveals novel information on blood digestion in argasid ticks.
  Oleaga, Parasites & vectors 2017
  • “...Another important protein in using glucose as an energy source is the glucose transporter 1 (E2C2M2), also identified in the transcriptome, which would be responsible for transporting blood glucose from the intestinal lumen to the inside of the enterocytes (Table 4 ). Table 4 Proteins involved...”
  • “...(T) 0.13 Hydrolase activity Unfed EST_Acari A0A0B1PR88 Glucose-6-phosphate isomerase (T) 0.35 Isomerase activity Unfed mRNA_Om E2C2M2 Glucose transporter type 1 (T) 0.08 Carbohydrate transporter activity Fed mRNA_Om A0A087UZ87 ADP-dependent glucokinase (T) 0.05 Transferase activity Fed mRNA_Om Q7Q4V0 AGAP000862-PA (T) 0.24 Hydrolase activity Fed mRNA_Om B7PE53 Beta-hexosaminidase...”

GTR5_RAT / P43427 Solute carrier family 2, facilitated glucose transporter member 5; Fructose transporter; Glucose transporter type 5, small intestine; GLUT-5 from Rattus norvegicus (Rat) (see 4 papers)
43% identity, 96% coverage

• function: Functions as a fructose transporter that has only low activity with other monosaccharides (PubMed:26416735, PubMed:8333543, PubMed:9820812). Can mediate the uptake of deoxyglucose, but with low efficiency (PubMed:8333543). Essential for fructose uptake in the small intestine (By similarity). Plays a role in the regulation of salt uptake and blood pressure in response to dietary fructose (By similarity). Required for the development of high blood pressure in response to high dietary fructose intake (By similarity).
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
• Establishing mammalian GLUT kinetics and lipid composition influences in a reconstituted-liposome system
  Suades, Nature communications 2023
  • “...1-Palmitoyl-2-Oleoyl-sn-Glycero-3-Phosphatidylcholine (POPC; 37-1618-12) were purchased from Larodan. Construct design and cloning Rattus norvegicus GLUT5 (UniProt: P43427) and Plasmodium falciparum Hexose Transporter 1 (UniProt: O97467) encoding genes were cloned as described previously in 33 , 34 . hGLUT1 (Uniprot: P11166), hGLUT3 (Uniprot: P11169), and hGLUT4 (Uniprot: P14672)...”
• Determinants of sugar-induced influx in the mammalian fructose transporter GLUT5.
  McComas, eLife 2023
  • “...methods Protein modeling Residue numbing for rGLUT5 is based on the UNIPROT entry of rGLUT5: P43427, all generated models begin at residue E7 and end at residue V480. The starting models for rGLUT5 in each state were generated using homology modeling with MODELLER version 10.1 (...”
  • “...Functional activity of rGLUT5 mutants Construct design and cloning The full-length sequence of rGLUT5 (Uniprot: P43427) was used for functional assays, with two alterations to the sequence. The deglycosylation mutation N50Y is present, and several C-terminal residues are retained after TEV cleavage. Both are underlined in...”
• Structural comparison of GLUT1 to GLUT3 reveal transport regulation mechanism in sugar porter family.
  Custódio, Life science alliance 2021
  • “...), GLUT2 (UniProt P11168 ), GLUT3 (UniProt P11169 ), GLUT4 (UniProt P14672 ), rGLUT5 (UniProt P43427 ), bGLUT5 (UniProt P58353 ), atSTP10 (UniProt Q9LT15 ), XylE (UniProt P0AGF4 ), and GlcPse (UniProt A0A0H2VG78 ). Conserved residues are highlighted with gray-scale. Alpha helices as found in GLUT1...”
• Structure and mechanism of the mammalian fructose transporter GLUT5
  Nomura, Nature 2015
  • “...novel inhibitors with therapeutic potential. METHODS Rattus norvegicus GLUT5 cloned full-length sequence (UniProt accession number: P43427); N50Y deglycosylation mutation is underlined and additional C-terminal residues retained after TEV cleavage are shown in italic (see next section for cloning details). MEKEDQEKTGKLTLVLALATFLAAFGSSFQYGYNVAAVNSPSEFMQQFY Y DTYYDRNK ENIESFTLTLLWSLTVSMFPFGGFIGSLMVGFLVNNLGRKGALLFNNIFSILPAILMGCSK IAKSFEIIIASRLLVGICAGISSNVVPMYLGELAPKNLRGALGVVPQLFITVGILVAQLFGLR SVLASEEGWPILLGLTGVPAGLQLLLLPFFPESPRYLLIQKKNESAAEKALQTLRGWKD VDMEMEEIRKEDEAEKAAGFISVWKLFRMQSLRWQLISTIVLMTGQQLSGVNAIYYYA...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377 U43375 U52842 Z46381 L27651 X78855 D83045 A53153 B53153 C53153 S27263...”

NP_113929 solute carrier family 2, facilitated glucose transporter member 5 from Rattus norvegicus
43% identity, 96% coverage

• Structure and mechanism of the mammalian fructose transporter GLUT5.
  Nomura, Nature 2015
  • GeneRIF: crystal structures of GLUT5 from Rattus norvegicus and Bos taurus in open outward- and open inward-facing conformations, respectively
• Diet-induced epigenetic regulation in vivo of the intestinal fructose transporter Glut5 during development of rat small intestine.
  Suzuki, The Biochemical journal 2011 (PubMed)
  • GeneRIF: investigation of influence of dietary carbohydrates on expression of Glut5 in small intestine: Glut5 mRNA increased with fructose perfusion and age, a pattern that matched that of Pol II binding and histone H3 acetylation at Glut5 promoter
• Positive regulatory control loop between gut leptin and intestinal GLUT2/GLUT5 transporters links to hepatic metabolic functions in rodents.
  Sakar, PloS one 2009
  • GeneRIF: regulatory control loop between gut leptin and intestinal GLUT2/GLUT5 transporters links to hepatic metabolic functions in rodents
• Dexamethasone sensitizes the neonatal intestine to fructose induction of intestinal fructose transporter (Slc2A5) function.
  Douard, Endocrinology 2008
  • GeneRIF: Dexamethasone sensitizes the neonatal intestine to fructose induction of intestinal fructose transporter (Slc2A5) function.
• Coordinated, diurnal hexose transporter expression in rat small bowel: implications for small bowel resection.
  Houghton, Surgery 2008
  • GeneRIF: Hexose transporter-mediated glucose uptake was greater in duodenum and jejunum compared with ileum.
• Fructose-induced hypertension: essential role of chloride and fructose absorbing transporters PAT1 and Glut5.
  Singh, Kidney international 2008
  • GeneRIF: The essential role of chloride and fructose absorbing Slc2a5 is reported.
• Developmental reprogramming of rat GLUT5 requires glucocorticoid receptor translocation to the nucleus.
  Douard, The Journal of physiology 2008
  • GeneRIF: The expression and metabolism of GLUT5 during the postnatal developmental process are reported.
• Triiodothyronine (T3) and fructose coordinately enhance expression of the GLUT5 gene in the small intestine of rats during weaning period.
  Mochizuki, Bioscience, biotechnology, and biochemistry 2007 (PubMed)
  • GeneRIF: T3 and fructose coordinately enhance expression of Slc2a5 gene in the small intestine during weaning period.
• More

GTR5_BOVIN / P58353 Solute carrier family 2, facilitated glucose transporter member 5; Fructose transporter; Glucose transporter type 5, small intestine; GLUT-5 from Bos taurus (Bovine) (see paper)
NP_001094512 solute carrier family 2, facilitated glucose transporter member 5 from Bos taurus
LOC107131287 solute carrier family 2, facilitated glucose transporter member 5 from Bos taurus
44% identity, 93% coverage

• function: Functions as a fructose transporter that has only low activity with other monosaccharides. Can mediate the uptake of deoxyglucose, but with low efficiency. Essential for fructose uptake in the small intestine. Plays a role in the regulation of salt uptake and blood pressure in response to dietary fructose. Required for the development of high blood pressure in response to high dietary fructose intake.
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
• Structural comparison of GLUT1 to GLUT3 reveal transport regulation mechanism in sugar porter family.
  Custódio, Life science alliance 2021
  • “...), GLUT3 (UniProt P11169 ), GLUT4 (UniProt P14672 ), rGLUT5 (UniProt P43427 ), bGLUT5 (UniProt P58353 ), atSTP10 (UniProt Q9LT15 ), XylE (UniProt P0AGF4 ), and GlcPse (UniProt A0A0H2VG78 ). Conserved residues are highlighted with gray-scale. Alpha helices as found in GLUT1 are represented above the...”
• Structure and mechanism of the mammalian fructose transporter GLUT5
  Nomura, Nature 2015
  • “...taurus GLUT5 cloned sequence containing 1 to 473 out of 501 residues (UniProt accession number: P58353); N51A deglycosylation mutation is underlined and additional C-terminal residues retained after TEV cleavage are shown in italic (see next section for cloning details). MEPQDPVKREGRLTPVIVLATLIAAFGSSFQYGYNVAAINSPSEFMKDFY A YTYYDRVG EYMNEFYLTLLWSVTVSMFPFGGFLGSLMVGPLVNNLGRKGTLLFNNIFSIVPALLMGF SELAKSFEMIIVARVLVGICAGLSSNVVPMYLGELAPKNWRGALGVVPQLFITIGILVAQI FGLRSLLANEEGWPILLGLTGIPAVLQLLFLPFFPESPRYLLIQKKDEAAAKSALRRLRG WHDVDAEIEEILEEDRAEKAVGFISVLKLFKMRSLRWQVISIIVLMAGQQLSGVNAIYYY...”
• Structure and mechanism of the mammalian fructose transporter GLUT5.
  Nomura, Nature 2015
  • GeneRIF: crystal structures of GLUT5 from Rattus norvegicus and Bos taurus in open outward- and open inward-facing conformations, respectively
• Assessing genomic diversity and signatures of selection in Pinan cattle using whole-genome sequencing data
  Zhang, BMC genomics 2022
  • “...LOC112449293 15: 48.4848.57 0.015635 LOC781483, LOC781444, LOC781403 16: 8.928.97 0.022505 LOC789494 16: 44.3244.41 0.008253 GPR157, LOC107131287 neuronal differentiation [ 32 ] 18: 44.6044.67 0.013972 LSM14A antiviral immune response [ 33 ] 19: 27.0827.13 0.015391 NLGN2, SPEM2, LOC112442746, TMEM102, TMEM256, SPEM1, FGF11, CHRNB1 disease-related [ 34 38...”
• Genetic Diversity and Signatures of Selection for Thermal Stress in Cattle and Other Two Bos Species Adapted to Divergent Climatic Conditions
  Freitas, Frontiers in genetics 2021
  • “...blood coagulation F3, FGA, FGG, VWF 0.026 SCEN2INTERPRO General substrate and sugar transporter SLC2A1, SLC2A10, LOC107131287 0.047 SCEN2GOTERM Platelet activation FGA, FGG, VWF 0.04 SCEN2GOTERM Myosin complex MYO1D, MYO1E, MYO5A, MYO5C 0.041 SCEN2GOTERM Steroid hormone receptor activity RORA, RORB, HNF4A, THRA 0.040 SCEN2GOTERM Collagen C1QTNF7, COL4A3,...”

R0K3X3 Solute carrier family 2, facilitated glucose transporter member 5 (Fragment) from Anas platyrhynchos
41% identity, 94% coverage

• A comparative proteomic study of high and low semen quality seminal plasma in drakes.
  Tang, Poultry science 2022
  • “...PPI ) network analysis, eight potential candidate proteins were identified, including P19140 (Alpha-enolase), R0KUV7 (Calreticulin), R0K3X3 (Solute carrier family 2, facilitated glucose transporter member 5), R0L6V0 (Proteasome subunit beta), R0JKW0 (Cytochrome c), R0JMC5 (Tubulin alpha chain), R0LCK1 (Cathepsin C), and R0JUP6 (Cathepsin D), which could play...”
  • “...nodes and 67 edges. The top highest degree proteins included P19140 (Alpha-enolase), R0KUV7 (Calreticulin), and R0K3X3 (Solute carrier family 2, facilitated glucose transporter member 5) ( Figure 4 B) . P19140 (Alpha-enolase) (Degree=15) showed higher degrees of connection degrees than other DEPs and was considered core...”

GTR5_MOUSE / Q9WV38 Solute carrier family 2, facilitated glucose transporter member 5; Fructose transporter; Glucose transporter type 5, small intestine; GLUT-5 from Mus musculus (Mouse) (see 5 papers)
42% identity, 92% coverage

• function: Functions as a fructose transporter that has only low activity with other monosaccharides (PubMed:12031501, PubMed:19091748). Can mediate the uptake of deoxyglucose, but with low efficiency (By similarity). Essential for fructose uptake in the small intestine (PubMed:19091748, PubMed:26071406). Plays a role in the regulation of salt uptake and blood pressure in response to dietary fructose (PubMed:19091748). Required for the development of high blood pressure in response to high dietary fructose intake (PubMed:19091748).
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
  disruption phenotype: Mice fed a standard diet appear normal and healthy, and display no visible phenotype (PubMed:18417103, PubMed:19091748, PubMed:26071406). Mutant mice show reduced food intake when kept on a high-frucose diet and about 28% reduction of their body weight within seven days. They loose more weight than wild-type mice that receive similar amounts of high-fructose food (PubMed:19091748). Mutant mice show strongly decreased fructose absorption in the jejunum (PubMed:19091748, PubMed:26071406). Contrary to wild-type, mutant mice have a strongly distended colon and caecum when kept on a high-fructose diet. Their intestines look normal when they are fed a standard diet. Contrary to wild-type, mutant mice do not display increased fructose levels in blood serum when kept on a high-fructose diet. Contrary to wild-type, they do not show increased salt absorption in response to fructose, and do not develop high blood pressure in response to fructose feeding. On the contrary, the blood pressure of mutant mice is strongly decreased after five days on a high-fructose diet. Mutant mice develop hypovolemic shock and die after 7 to 10 days on high-fructose diet (PubMed:19091748). Mutant mice display no defects of cochlear morphology or any hearing defects (PubMed:18417103).
• A multi-hierarchical approach reveals d-serine as a hidden substrate of sodium-coupled monocarboxylate transporters.
  Wiriyasermkul, eLife 2024
  • “...0.09 4 767 1.5E+07 Decreased Slc36a1/Pat1 Q8K4D3 1.2 0.08 1.0 0.12 3 103 5.4E+06 Slc2a5/Glut5 Q9WV38 1.2 0.01 0.8 0.04 2 1,140 6.5E+07 Slco4c1/Oatp-m1 Q8BGD4 1.1 0.00 0.9 0.00 9 4,011 1.5E+08 Slc22a13/Oat10 Q6A4L0 1.1 0.03 0.8 0.03 15 5,948 5.6E+08 Slc22a7/Oat2 Q91WU2 0.9 0.00 0.6...”
• Unraveling the Proteomic Landscape of Intestinal Epithelial Cell-Derived Exosomes in Mice.
  Ding, Frontiers in physiology 2022
  • “...cotransporter 1 785.16 0.606 0.007 Down 18 Q61391 Mme Neprilysin 3797.97 0.597 0.006 Down 19 Q9WV38 Slc2a5 Solute carrier family 2, facilitated glucose transporter member 5 56.26 0.596 0.009 Down 20 P34914 Ephx2 Bifunctional epoxide hydrolase 2 548.11 0.584 0.038 Down 21 Q8CIW6 Slc26a6 Solute carrier...”
  • “...365.10 0.622 0.000 Down 29 Q8C3K6 Slc5a1 Sodium/glucose cotransporter 1 785.16 0.606 0.007 Down 30 Q9WV38 Slc2a5 Solute carrier family 2, facilitated glucose transporter member 5 56.26 0.596 0.009 Down 31 Q8CIW6 Slc26a6 Solute carrier family 26 member 6 639.88 0.579 0.013 Down 32 P14246 Slc2a2...”
• A Novel GLP1 Receptor Interacting Protein ATP6ap2 Regulates Insulin Secretion in Pancreatic Beta Cells.
  Dai, The Journal of biological chemistry 2015

LOC102178379 solute carrier family 2, facilitated glucose transporter member 5 from Capra hircus
44% identity, 87% coverage

• Transcriptome analysis reveals liver metabolism programming in kids from nutritional restricted goats during mid-gestation
  Yang, PeerJ 2021
  • “..., COL16A1 , HRCT1 , LOC108636568 , RUNDC3A , LOC102173859 , LBR , LIPN , LOC102178379 , LRP2 , RUNDC3A , SNAP25 and ACSL4 ) mainly enriched in protein digestion and absorption, bile secretion, steroid biosynthesis, carbohydrate digestion and absorption, thyroid hormone synthesis, ABC transporters, insulin...”

GTR9_MOUSE / Q3T9X0 Solute carrier family 2, facilitated glucose transporter member 9; Glucose transporter type 9; GLUT-9; Urate transporter from Mus musculus (Mouse) (see 3 papers)
40% identity, 87% coverage

• function: High-capacity urate transporter, which may play a role in the urate reabsorption by proximal tubules. May have a residual high- affinity, low-capacity glucose and fructose transporter activity. Transports urate at rates 45- to 60-fold faster than glucose. Does not transport galactose. May mediate small uptake of adenine but not of other nucleobases.
  catalytic activity: urate(out) = urate(in) (RHEA:60368)
  disruption phenotype: Conditional knockout mice lacking Slc2a9 in enterocytes are born at the expected Mendelian rate; they show no obvious phenotype and are fertile (PubMed:25100214). Mice however develop impaired enterocyte uric acid transport kinetics, hyperuricaemia, hyperuricosuria, spontaneous hypertension, dyslipidaemia and elevated body fat (PubMed:25100214).
• SWATH-Based Comprehensive Determination of the Localization of Apical and Basolateral Membrane Proteins Using Mouse Liver as a Model Tissue.
  Hirano, Biomedicines 2022
  • “...O70451 2.63 0.09 Yes Farp1 F8VPU2 3.00 0.03 Yes Bsg P18572 2.50 0.01 Yes Slc2a9 Q3T9X0 2.50 0.01 Yes Ttyh2 Q3TH73 2.76 0.02 Yes Cd82 P40237 2.37 0.01 Yes Slc4a4 O88343 2.42 0.03 Yes Fam126b Q8C729 2.70 0.05 Yes Abca8b Q8K440 2.32 0.01 Yes Epb41l5 Q8BGS1...”

GTR9_HUMAN / Q9NRM0 Solute carrier family 2, facilitated glucose transporter member 9; Glucose transporter type 9; GLUT-9; Urate transporter from Homo sapiens (Human) (see 18 papers)
39% identity, 89% coverage

• function: High-capacity urate transporter, which may play a role in the urate reabsorption by proximal tubules (PubMed:18327257, PubMed:18701466, PubMed:22647630, PubMed:28083649, PubMed:36749388). May have a residual high-affinity, low-capacity glucose and fructose transporter activity (PubMed:18327257, PubMed:18701466, PubMed:18842065). Transports urate at rates 45- to 60-fold faster than glucose (PubMed:18842065). Does not transport galactose (PubMed:28083649). May mediate small uptake of adenine but not of other nucleobases (PubMed:22647630).
  catalytic activity: urate(out) = urate(in) (RHEA:60368)
• Defining the proteomic landscape of cultured macrophages and their polarization continuum.
  Oates, Immunology and cell biology 2023
  • “...1.05 0.65 P29323 EPHB2 Ephrin typeB receptor 2 1.13 0.77 Q08554 DSC1 Desmocollin1 1.24 0.66 Q9NRM0 SLC2A9 Solute carrier family 2 facilitated glucose transporter member 9 0.63 1.51 P15529 CD46 Membrane cofactor protein 1.25 1.19 FC, fold change. DISCUSSION In this study, four macrophage polarization states...”
• New SLC22A12 (URAT1) Variant Associated with Renal Hypouricemia Identified by Whole-Exome Sequencing Analysis and Bioinformatics Predictions.
  Perdomo-Ramírez, Genes 2023
  • “...and the mutated residue. The PDB accession numbers used for URAT1 and GLUT9 were Q96S37and Q9NRM0, respectively. Furthermore, we used the web server HOPE to analyze the structural effects of mutations on URAT1 and GLUT9 ( https://www3.cmbi.umcn.nl/hope/ ) (Accessed on: 4 September 2023) [ 39 ]....”
• Therapeutic effects and mechanisms of N-(9,10-anthraquinone-2-ylcarbonyl) xanthine oxidase inhibitors on hyperuricemia.
  Gao, Frontiers in pharmacology 2022
  • “...) database ( Okamoto et al., 2003 ). Amino acid sequences of GLUT9 (UniProt ID: Q9NRM0), OAT1 (UniProt ID: Q4U2R8), and OAT3 (UniProt ID: Q8TCC7) were obtained from the UniProt database ( https://www.uniprot.org/ ), and then modeled by AlphaFold Protein Structure Database ( https://alphafold.ebi.ac.uk/ ) (...”
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...GLUT2: P11168; GLUT3: P11169; GLUT4: P14672; GLUT5: P22732; GLUT6: Q9UGQ3; GLUT7: Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked in ViTO, 39 taking into account secondary structure prediction by the PSIPRED server. 47...”
  • “...the number of hits, which was set to 250. Query sequences, obtained from UniProt, were Q9NRM0 for human GLUT9, O95528 for GLUT10, Q9BYW1 for human GLUT11, Q8TD20 for GLUT12, and Q96QE2 for human GLUT13. The sequences obtained were then aligned with Clustal Omega and the resulting...”
• THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Transporters
  Alexander, British journal of pharmacology 2017
  • “...Systematic nomenclature SLC2A5 SLC2A7 SLC2A9 HGNC, UniProt SLC2A5 , P22732 SLC2A7 , Q6PXP3 SLC2A9 , Q9NRM0 Common abreviation GLUT5 GLUT7 GLUT9 Substrates Dfructose (Dfructose > Dglucose) [ 71 ], Dglucose (Dfructose > Dglucose) [ 71 ] Dfructose [ 87 ], Dglucose [ 87 ] Dfructose [...”
• The Concise Guide to PHARMACOLOGY 2015/16: Transporters
  Alexander, British journal of pharmacology 2015
  • “...abreviation GLUT5 GLUT7 GLUT9 GLUT11 HGNC, UniProt SLC2A5 , P22732 SLC2A7 , Q6PXP3 SLC2A9 , Q9NRM0 SLC2A11 , Q9BYW1 Substrates Dfructose (Dfructose > Dglucose) [ 67 ], Dglucose (Dfructose > Dglucose) [ 67 ] Dfructose [ 81 ], Dglucose [ 81 ] Dfructose [ 75 ],...”
• An insulin-like modular basis for the evolution of glucose transporters (GLUT) with implications for diabetes.
  Root-Bernstein, Evolutionary bioinformatics online 2007
  • “...(GTR1 P11166; GTR2 P11168; GTR3 11169; GTR4 P14672; GTR5 P22732; GTR6 Q9UGQ3; GTR8 Q9NY64; GTR9 Q9NRM0; GTR10 O95528; GTR11 Q9BYW1; GTR14 Q8TDB8). A further set of similarity searches was carried out in November 2006 involving the sodium/glucose cotransporters 1, 2 and 3 (P13866, P31639, and Q9NY91),...”

TC 2.A.1.1.72 / Q9NRM0 The kidney basolateral urate efflux transporter (SLC2A9, URATv1 or GLUT9) (orthologue of 2.A.1.1.47) (Anzai et al., 2008). Human SLC2A9a and SLC2A9b isoforms mediate electrogenic transport of urate with different characteristics in the presence of hexoses from Homo sapiens (see 10 papers)
39% identity, 89% coverage

• substrates: Urate
  tcdb comment: It transports hexoses as well as urate, the latter by a uniport mechanism, thus catalyzing uptake as well as efflux. The ITM2B protein Q9Y287; 266 aas and 1 TMS) inhibits urate uptake and stimulates efflux (Mandal and Mount 2019). GLUT9's transcription is regulated by a hepatocyte nuclear factor, HNF4α (Prestin et al. 2014). Residues involved in urate transport have been identified (Long et al. 2017)

TC 2.A.1.1.47 / Q5ERC7 The embryonic liver, kidney, and other tissue uric acid (urate) transporter, Glut9 (SLC2A9) (Wright et al. 2010). Mutations in this transporter cause severe renal hyperuricemia from Mus musculus (Mouse) (see paper)
Slc2a9 / RF|NP_001012363.2 glucose transporter 9b from Mus musculus (see paper)
40% identity, 90% coverage

• substrates: Urate
  tcdb comment: It transports hexoses as well as urate, the latter by an electrogenic uniport mechanism. It's transcription is regulated by a hepatocyte nuclear factor, HNF4α (Prestin et al. 2014)

9cbbA / P0ABE7,Q9NRM0 Structure of urate bound human slc2a9 transporter
40% identity, 93% coverage

• Ligand: uric acid (9cbbA)

Q5RB09 Solute carrier family 2, facilitated glucose transporter member 9 from Pongo abelii
39% identity, 83% coverage

• Association of a common nonsynonymous variant in GLUT9 with serum uric acid levels in old order amish.
  McArdle, Arthritis and rheumatism 2008
  • “...Sequence (Val253Ile in bold) Human NP_064425 LLLEKHNEARAVKAFQTFLGKAD V SQEVEEVLAESRVQRSIRLVSVLELL Chimpanzee XP_520688.2 LLLEKHNEARAVKAFQTFLGKAD V SQEVEEVLAESRVQRSIRLVSVLELL Orangutan Q5RB09 LLLEKRNEARAVKAFQTFLGKAD V SREVEEV-AESRVQRSIRLVSVLELL Mouse NP_001012363.2 LLFEKHDEAGAMKAFQTFLGKAD V SQELEEALAESRVQRNLRLVSVLELL Dog XP_536240.2 LLFEKHDQAGAEKAFQTFLGKED V SREVEEVLAESRVQRNIQLVSVLELL Rat XP_577349.2 LLFEKHDEAGATKAFQTFLGKAD V SQELEEALAESRVQRNLRLVSVFELL Chicken XP_420789.2 LLLEKHNTSKAEKAFQTFLGKDD V SQEVEEVLAESRVQRNTKLVSVLQLL Platypus XP_001512025.1 LLFEKHDEAAATKAFQTFLGKDD V SQEIEDILAESRAQRNLRLESVPQLL Opossum XP_001371233.1...”

A9ULS7 Si:ch211-207k7.1 protein from Danio rerio
39% identity, 92% coverage

• A Brain-Derived Neurotrophic Factor Mimetic Is Sufficient to Restore Cone Photoreceptor Visual Function in an Inherited Blindness Model
  Daly, Scientific reports 2017
  • “...Ankyrin repeat and FYVE domain containing 1 ankfy1 3.46 5.17E-03 F1REH0 Vinculin vcl 1.29 5.20E-03 A9ULS7 Solute carrier family 2 (facilitated glucose transporter), member 11b slc2a11b Table 2 Significantly differentially expressed eye proteins in TSA treated dye at 5 dpf. 5 dpf fold-change (1M TSA vs....”

XP_014952115 solute carrier family 2, facilitated glucose transporter member 9 isoform X1 from Ovis aries
38% identity, 91% coverage

• Genome-Wide Association Identifies SLC2A9 and NLN Gene Regions as Associated with Entropion in Domestic Sheep.
  Mousel, PloS one 2015
  • GeneRIF: A genome-wide association study of entropion in domestic sheep identifies SLC2A9 as associated with congenital entropion

GTR7_HUMAN / Q6PXP3 Solute carrier family 2, facilitated glucose transporter member 7; Glucose transporter type 7; GLUT-7; hGLUT7 from Homo sapiens (Human) (see 4 papers)
TC 2.A.1.1.37 / Q6PXP3 The glucose/fructose facilitator, Glut7 (SLC2A7) (a single mutation, I314V, results in loss of fructose transport but retention of glucose transport from Homo sapiens (Human) (see 2 papers)
40% identity, 94% coverage

• function: Probable sugar transporter (PubMed:28083649). Even if its physiological substrate is subject to discussion, it is able to transport glucose and fructose (PubMed:16186102, PubMed:28083649, PubMed:29548810). Does not transport galactose, 2-deoxy-d-glucose and xylose (PubMed:15033637).
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
• substrates: Glucose, fructose
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...database 30 (GLUT1: P11166; GLUT2: P11168; GLUT3: P11169; GLUT4: P14672; GLUT5: P22732; GLUT6: Q9UGQ3; GLUT7: Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked in ViTO, 39 taking into account secondary structure prediction by...”
• THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Transporters
  Alexander, British journal of pharmacology 2017
  • “...Glucose transporter 9 Systematic nomenclature SLC2A5 SLC2A7 SLC2A9 HGNC, UniProt SLC2A5 , P22732 SLC2A7 , Q6PXP3 SLC2A9 , Q9NRM0 Common abreviation GLUT5 GLUT7 GLUT9 Substrates Dfructose (Dfructose > Dglucose) [ 71 ], Dglucose (Dfructose > Dglucose) [ 71 ] Dfructose [ 87 ], Dglucose [ 87...”
• The Concise Guide to PHARMACOLOGY 2015/16: Transporters
  Alexander, British journal of pharmacology 2015
  • “...SLC2A9 SLC2A11 Common abreviation GLUT5 GLUT7 GLUT9 GLUT11 HGNC, UniProt SLC2A5 , P22732 SLC2A7 , Q6PXP3 SLC2A9 , Q9NRM0 SLC2A11 , Q9BYW1 Substrates Dfructose (Dfructose > Dglucose) [ 67 ], Dglucose (Dfructose > Dglucose) [ 67 ] Dfructose [ 81 ], Dglucose [ 81 ] Dfructose...”
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...GLUT5 (P22732); Homo sapiens facilitated glucose transporter GLUT6 (Q9UGQ3); Homo sapiens facilitated glucose transporter GLUT7 (Q6PXP3); Homo sapiens facilitated glucose transporter GLUT8 (Q9NY64); Homo sapiens facilitated glucose transporter GLUT11 (Q9BYW1); Homo sapiens facilitated glucose transporter GLUT14 (Q8TDB8). Simulation system setup The crystal of structure of XylE...”

A4ZYQ5 Solute carrier family 2, facilitated glucose transporter member 7 from Rattus norvegicus
40% identity, 94% coverage

• Striated muscle-specific serine/threonine-protein kinase beta segregates with high versus low responsiveness to endurance exercise training
  Kusić, Physiological genomics 2020 (secret)

K1QTP5 Solute carrier family 2, facilitated glucose transporter member 1 from Magallana gigas
36% identity, 81% coverage

• Hemocyte phagosomal proteome is dynamically shaped by cytoskeleton remodeling and interorganellar communication with endoplasmic reticulum during phagocytosis in a marine invertebrate, Crassostrea gigas.
  Mao, Scientific reports 2020
  • “...<0.01. Table 1 The information of DEPs (Differentially expressed proteins). Prot_acc Prot_name Fold_Change P_value Cg K1QTP5 Solute carrier family 2, facilitated glucose transporter member 1 1.49 0.0355 Cg K1QCM0 Rho GDP-dissociation inhibitor 1 1.42 0.0473 Cg K1QTL3 Rho-associated protein kinase 2 1.42 0.0106 Cg K1PCN1 Uncharacterized...”

SLC2A5 / P22732 solute carrier family 2, facilitated glucose transporter member 5 from Homo sapiens (see paper)
GTR5_HUMAN / P22732 Solute carrier family 2, facilitated glucose transporter member 5; Fructose transporter; Glucose transporter type 5, small intestine; GLUT-5 from Homo sapiens (Human) (see 9 papers)
TC 2.A.1.1.13 / P22732 Fructose uniporter, GLUT5 (see 6 papers)
43% identity, 92% coverage

• function: Functions as a fructose transporter that has only low activity with other monosaccharides (PubMed:16186102, PubMed:17710649, PubMed:28083649, PubMed:29548810, PubMed:8333543). Can mediate the uptake of 2-deoxyglucose, but with low efficiency (PubMed:1695905). Essential for fructose uptake in the small intestine (By similarity). Plays a role in the regulation of salt uptake and blood pressure in response to dietary fructose (By similarity). Required for the development of high blood pressure in response to high dietary fructose intake (By similarity).
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
• substrates: fructose
  tcdb comment: The proteins from rat and cow have been crystalized and their structures have been determined in the open outward- and open inward-facing conformations, respectively. On the basis of comparisons of the inward-facing structures of GLUT5 and human GLUT1, a ubiquitous glucose transporter, a single point mutation proved to be enough to switch the substrate-binding preference from fructose to glucose. A comparison of the substrate-free structures of GLUT5 with occluded substrate-bound structures of E. coli XylE suggested that, in addition to a global rocker-switch-like re-orientation of the bundles, local asymmetric rearrangements of carboxy-terminal transmembrane bundle helices, TM7 and TM10, underlie a 'gated-pore' transport mechanism (Nomura et al. 2015). GLUT5 is preferentially used for fructose uptake under (near) anoxic glycolysis to avoid feedback inhibition of phosphofructokinase (Park et al. 2017). Residues involved in fructose recognition have been identified (Ebert et al. 2017)
• Urinary Proteomics and Outcomes in Heart Failure With Preserved Ejection Fraction.
  Carland, Journal of the American Heart Association 2024
  • “...0.0317 0.45 1.58 1.261.96 0.0172 A0A075B6N7 IGHA2 0.38 1.46 1.21.77 0.045 0.4 1.50 1.231.83 0.0218 P22732 SLC2A5 0.49 0.61 0.50.75 0.0004 0.42 0.66 0.530.81 0.0286 P25705 ATP5F1A 0.45 0.64 0.520.78 0.005 0.42 0.65 0.530.81 0.0309 P05026 ATP1B1 0.45 0.64 0.520.78 0.0025 0.42 0.66 0.530.81 0.0367 Q16651...”
• Proteome and immune responses of extracellular vesicles derived from macrophages infected with the periodontal pathogen Tannerella forsythia.
  Lim, Journal of extracellular vesicles 2023
  • “...1 P20701 Integrin alphaL ITGAL 2.5 1 P52565 Rho GDPdissociation inhibitor 1 ARHGDIA 2.1 0.9 P22732 Solute carrier family 2, facilitated glucose transporter member 5 SLC2A5 2.3 0.8 P62993 Growth factor receptorbound protein 2 GRB2 2.3 0.8 P08582 Melanotransferrin MFI2 2.4 0.7 Q9ULI3 Protein HEG homolog...”
• GLUT5: structure, functions, diseases and potential applications.
  Song, Acta biochimica et biophysica Sinica 2023
  • “...), the distribution characteristics of the 12 TMs of the human GLUT5 protein (UniProt ID: P22732) along the amino acid sequence, as well as sites where posttranslational modifications occur on the polypeptide chain, were determined ( Figure 2 ). In addition, we downloaded the human GLUT5...”
• Integrative transcriptome analysis of SARS-CoV-2 human-infected cells combined with deep learning algorithms identifies two potential cellular targets for the treatment of coronavirus disease.
  Gonçalves, Brazilian journal of microbiology : [publication of the Brazilian Society for Microbiology] 2023
  • “...of SLC2A5 and PSMD2 isoform structures The three-dimensional models of isoform 1 of SLC2A5 (id: P22732) and PSMD2 (ID: Q13200) were generated from the AlphaFold database ( https://alphafold.ebi.ac.uk/ ) partnership between DeepMind and EMBL-EBI, which set out to solve all the main protein structures encoded by...”
  • “...three-dimensional models of its isoforms (Table S1 ) derived from the alternative-splicing demonstrated in accessions P22732 and Q13200 (Uniprot ID). Even though interactions with the lipid bilayer make it particularly difficult to achieve high-quality resolution of transmembrane transporters [ 68 ], the complete structure of GLUT-5...”
• Extracellular Vesicles from Human Adipose-Derived Mesenchymal Stem Cells: A Review of Common Cargos.
  Alonso-Alonso, Stem cell reviews and reports 2022
  • “...P11169 SLC2A3 [ 65 ] Solute carrier family 2, facilitated glucose transporter member 5* GTR5_HUMAN P22732 SLC2A5 [ 52 , 65 ] Somatotropin* SOMA_HUMAN P01241 GH1 [ 52 ] Sonic hedgehog protein* SHH_HUMAN Q15465 SHH [ 52 ] SPARC SPRC_HUMAN P09486 SPARC [ 60 ] Sphingosine...”
• Effect of transient scrotal hyperthermia on human sperm: an iTRAQ-based proteomic analysis.
  Wu, Reproductive biology and endocrinology : RB&E 2020
  • “...Peptidyl-prolyl cis-trans isomerase-like 6 0.64450 26 SMCP P49901 Sperm mitochondrial-associated cysteine-rich protein 0.51795 27 SLC2A5 P22732 Solute carrier family 2, facilitated glucose transporter member 5 0.65610 28 PFN3 P60673 Profilin-3 0.58565 29 TMEM190 Q8WZ59 Transmembrane protein 190 0.60795 30 SPATA31D1 Q6ZQQ2 Spermatogenesis-associated protein 31D1 0.66080 31...”
• Quantitative proteomic analysis of urinary exosomes in kidney stone patients.
  Wang, Translational andrology and urology 2020
  • “...0.02 GSTA1 P08263 2.00 6.30 0.00 11.29 Glutathione peroxidase activity/epithelial cell differentiation 1.39 0.05 GTR5 P22732 8.00 12.20 0.00 78.71 Fructose binding/carbohydrate metabolic process 1.41 <0.01 VAT1 Q99536 3.00 9.20 0.00 32.12 Oxidoreductase activity/negative regulation of mitochondrial fusion 1.42 0.03 ALDOB P05062 12.00 36.30 0.00 323.31...”
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...obtained from the UniProt database 30 (GLUT1: P11166; GLUT2: P11168; GLUT3: P11169; GLUT4: P14672; GLUT5: P22732; GLUT6: Q9UGQ3; GLUT7: Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked in ViTO, 39 taking into account...”
• More

FGT1_CAEEL / O44827 Facilitated glucose transporter protein 1 from Caenorhabditis elegans (see 2 papers)
40% identity, 91% coverage

• function: Facilitative glucose transporter that plays a role in glucose metabolism and regulation of longevity. May also play a role in lipid metabolism. Glucose transport activity of isoform a is competitively inhibited by mannose, galactose and fructose, suggesting ability to transport also other hexose sugars.
  disruption phenotype: RNAi-mediated knockdown of the protein causes reduced 2-deoxy-D-glucose uptake, glucose oxidation and glucose conversion to triglyceride; simultaneous knockout of daf-2 or age-1 causes further reductions. The lifespan in low glucose environment is extended by 20-25% after knockdown, with 7% extension in daf-2 mutant background and no significant extension in age-1 mutant background. Fat accumulation in intestinal cells is increased. Brood size and dauer formation are not affected.

NP_493981 Facilitated glucose transporter protein 1 from Caenorhabditis elegans
40% identity, 94% coverage

• The Caenorhabditis elegans homolog of human mitochondrial pyrimidine nucleotide transporter regulates glucose transport.
  Ogurusu, Biochemical and biophysical research communications 2021 (PubMed)
  • GeneRIF: The Caenorhabditis elegans homolog of human mitochondrial pyrimidine nucleotide transporter regulates glucose transport.
• FGT-1 is a mammalian GLUT2-like facilitative glucose transporter in Caenorhabditis elegans whose malfunction induces fat accumulation in intestinal cells.
  Kitaoka, PloS one 2013
  • GeneRIF: In C. elegans, FGT-1 is mainly a mammalian GLUT2-like intestinal glucose transporter and is involved in lipid metabolism.
• FGT-1 is the major glucose transporter in C. elegans and is central to aging pathways.
  Feng, The Biochemical journal 2013
  • GeneRIF: fgt-1 constitutes a common axis for the lifespan extending effects of nutrient restriction and reduced insulin-like peptide signalling.

XP_019907851 solute carrier family 2, facilitated glucose transporter member 11b isoform X2 from Esox lucius
38% identity, 93% coverage

• Molecular parallelisms between pigmentation in the avian iris and the integument of ectothermic vertebrates.
  Andrade, PLoS genetics 2021
  • GeneRIF: Molecular parallelisms between pigmentation in the avian iris and the integument of ectothermic vertebrates.

XP_063129574 solute carrier family 2, facilitated glucose transporter member 9 isoform X4 from Rattus norvegicus
38% identity, 92% coverage

• Renal Reabsorptive Transport of Uric Acid Precursor Xanthine by URAT1 and GLUT9.
  Arakawa, Biological & pharmaceutical bulletin 2020 (PubMed)
  • GeneRIF: Renal Reabsorptive Transport of Uric Acid Precursor Xanthine by URAT1 and GLUT9.

LOAG_09566 sugar transporter from Loa loa
41% identity, 94% coverage

• Identification and characterization of Loa loa antigens responsible for cross-reactivity with rapid diagnostic tests for lymphatic filariasis
  Hertz, PLoS neglected tropical diseases 2018
  • “...21 (30) Hypothetical zinc metalloprotease EN70_10459 - nas-14 21 (30) 2 (2) Sugar transporter EN70_10241 LOAG_09566 fgt-1 18 (21) 3 (3) Tropomyosin - LOAG_17659 lev-11 2 (2) 1 (12) Hypothetical zinc metalloprotease EN70_10463 4 - nas-14 2 (19) 1 (12) Hypothetical zinc metalloprotease EN70_10462 - nas-14...”

FGTH1_CAEEL / O44616 Facilitated glucose transporter homolog from Caenorhabditis elegans (see paper)
37% identity, 88% coverage

• function: Appears to have no transport activity for glucose.

NP_001120033 solute carrier family 2 member 7 from Xenopus tropicalis
35% identity, 96% coverage

• Generation of no-yellow-pigment Xenopus tropicalis by slc2a7 gene knockout.
  Nakajima, Developmental dynamics : an official publication of the American Association of Anatomists 2021 (PubMed)
  • GeneRIF: Generation of no-yellow-pigment Xenopus tropicalis by slc2a7 gene knockout.

XP_011539126 solute carrier family 2, facilitated glucose transporter member 7 isoform X1 from Homo sapiens
40% identity, 82% coverage

• Identification of a hydrophobic residue as a key determinant of fructose transport by the facilitative hexose transporter SLC2A7 (GLUT7).
  Manolescu, The Journal of biological chemistry 2005 (PubMed)
  • GeneRIF: a hydrophobic residue is a key determinant of fructose transport in SLC2A7
• Cloning and functional characterization of the human GLUT7 isoform SLC2A7 from the small intestine.
  Li, American journal of physiology. Gastrointestinal and liver physiology 2004 (PubMed)
  • GeneRIF: Unusual substrate specificity and close sequence identity with GLUT5. GLUT7 may represent intermediate between class II GLUTs and class I member GLUT2. Comparison may give key to structural determinants for recognition of fructose as a substrate.

GTR5_RABIT / P46408 Solute carrier family 2, facilitated glucose transporter member 5; Fructose transporter; Glucose transporter type 5, small intestine; GLUT-5 from Oryctolagus cuniculus (Rabbit) (see paper)
40% identity, 98% coverage

• function: Functions as a fructose transporter that has only low activity with other monosaccharides (PubMed:7980458). Can mediate the uptake of deoxyglucose, but with low efficiency (By similarity). Essential for fructose uptake in the small intestine. Plays a role in the regulation of salt uptake and blood pressure in response to dietary fructose. Required for the development of high blood pressure in response to high dietary fructose intake (By similarity).
  catalytic activity: D-fructose(out) = D-fructose(in) (RHEA:60372)
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P11169 P32037 P47843 Q07647 P14672 P14142 P19357 P22732 P46408 P43427 Q00712 B30310 U39197 U29377 U43375 U52842 Z46381 L27651 X78855 D83045 A53153 B53153 C53153...”

NP_110434 solute carrier family 2, facilitated glucose transporter member 11 isoform a from Homo sapiens
37% identity, 92% coverage

• Multiple myeloma exhibits novel dependence on GLUT4, GLUT8, and GLUT11: implications for glucose transporter-directed therapy.
  McBrayer, Blood 2012
  • GeneRIF: Critical roles for novel GLUT family members highlight a therapeutic strategy entailing selective GLUT inhibition to specifically target aberrant glucose metabolism in cancer.
• Risk of meningioma and common variation in genes related to innate immunity.
  Rajaraman, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology 2010
  • GeneRIF: Observational study of gene-disease association. (HuGE Navigator)
• Polymorphisms in innate immunity genes and risk of childhood leukemia.
  Han, Human immunology 2010
  • GeneRIF: Observational study of gene-disease association and gene-gene interaction. (HuGE Navigator)
• Common variation in genes related to innate immunity and risk of adult glioma.
  Rajaraman, Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology 2009
  • GeneRIF: Observational study of gene-disease association. (HuGE Navigator)
• Cloning and characterization of glucose transporter 11, a novel sugar transporter that is alternatively spliced in various tissues.
  Wu, Molecular genetics and metabolism 2002 (PubMed)
  • GeneRIF: a novel sugar transporter that is alternatively spliced in various tissues
• Characterization of the human SLC2A11 (GLUT11) gene: alternative promoter usage, function, expression, and subcellular distribution of three isoforms, and lack of mouse orthologue.
  Scheepers, Molecular membrane biology (PubMed)
  • GeneRIF: Different promoters and splicing generate three SLC2A11 isoforms which are expressed in a tissue specific manner but do not appear to differ in their functional characteristics.
• A highly conserved hydrophobic motif in the exofacial vestibule of fructose transporting SLC2A proteins acts as a critical determinant of their substrate selectivity.
  Manolescu, Molecular membrane biology (PubMed)
  • GeneRIF: GLUT11 can also transport fructose, but it has the motif DSV at the same position, which appears to function in the same manner as NXI and when all three residues are replaced with NAV fructose transport lost.

GTR11_HUMAN / Q9BYW1 Solute carrier family 2, facilitated glucose transporter member 11; Glucose transporter type 11; GLUT-11 from Homo sapiens (Human) (see paper)
TC 2.A.1.1.44 / Q9BYW1 The hexose (glucose and fructose but not galactose) transporter (Glut11; SLC2A11) from Homo sapiens (see 4 papers)
36% identity, 94% coverage

• function: Facilitative glucose transporter.
  catalytic activity: D-glucose(out) = D-glucose(in) (RHEA:60376)
• substrates: Hexoses
• Insights into Substrate and Inhibitor Selectivity among Human GLUT Transporters through Comparative Modeling and Molecular Docking
  Ferreira, ACS omega 2019
  • “...GLUT4: P14672; GLUT5: P22732; GLUT6: Q9UGQ3; GLUT7: Q6PXP3; GLUT8: Q9NY64; GLUT9: Q9NRM0; GLUT10: O95528; GLUT11: Q9BYW1; GLUT12: Q8TD20; GLUT13 (MYCT): Q96QE2; GLUT14: Q8TDB8). Sequence alignment was manually checked in ViTO, 39 taking into account secondary structure prediction by the PSIPRED server. 47 Models were then built...”
  • “...to 250. Query sequences, obtained from UniProt, were Q9NRM0 for human GLUT9, O95528 for GLUT10, Q9BYW1 for human GLUT11, Q8TD20 for GLUT12, and Q96QE2 for human GLUT13. The sequences obtained were then aligned with Clustal Omega and the resulting file was visualized and analyzed with Jalview,...”
• THE CONCISE GUIDE TO PHARMACOLOGY 2017/18: Transporters
  Alexander, British journal of pharmacology 2017
  • “...10 Glucose transporter 12 Systematic nomenclature SLC2A11 SLC2A6 SLC2A8 SLC2A10 SLC2A12 HGNC, UniProt SLC2A11 , Q9BYW1 SLC2A6 , Q9UGQ3 SLC2A8 , Q9NY64 SLC2A10 , O95528 SLC2A12 , Q8TD20 Common abreviation GLUT11 GLUT6 GLUT8 GLUT10 GLUT12 Substrates Dfructose [ 368 ], Dglucose [ 134 ] Dglucose [...”
• The Concise Guide to PHARMACOLOGY 2015/16: Transporters
  Alexander, British journal of pharmacology 2015
  • “...GLUT9 GLUT11 HGNC, UniProt SLC2A5 , P22732 SLC2A7 , Q6PXP3 SLC2A9 , Q9NRM0 SLC2A11 , Q9BYW1 Substrates Dfructose (Dfructose > Dglucose) [ 67 ], Dglucose (Dfructose > Dglucose) [ 67 ] Dfructose [ 81 ], Dglucose [ 81 ] Dfructose [ 75 ], uric acid [...”
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...GLUT7 (Q6PXP3); Homo sapiens facilitated glucose transporter GLUT8 (Q9NY64); Homo sapiens facilitated glucose transporter GLUT11 (Q9BYW1); Homo sapiens facilitated glucose transporter GLUT14 (Q8TDB8). Simulation system setup The crystal of structure of XylE with substrate bound in the outward-facing partially occluded conformation (PDB 4GBY) was used as...”
• An insulin-like modular basis for the evolution of glucose transporters (GLUT) with implications for diabetes.
  Root-Bernstein, Evolutionary bioinformatics online 2007
  • “...GTR3 11169; GTR4 P14672; GTR5 P22732; GTR6 Q9UGQ3; GTR8 Q9NY64; GTR9 Q9NRM0; GTR10 O95528; GTR11 Q9BYW1; GTR14 Q8TDB8). A further set of similarity searches was carried out in November 2006 involving the sodium/glucose cotransporters 1, 2 and 3 (P13866, P31639, and Q9NY91), using as control sequences...”
• Mining protein function from text using term-based support vector machines.
  Rice, BMC bioinformatics 2005
  • “...see Table 4 ), while it was very poor for other two proteins (P30153 and Q9BYW1; also see Table 4 ). We believe that a plausible reason for such discrepancy was the relevance of retrieved documents: for the first two proteins, almost all collected documents were...”
  • “...P30153 ( serine/threonine protein phosphatase 2A, 65 KDA regulatory subunit A, alpha isoform ) and Q9BYW1 ( solute carrier family 2, facilitated glucose transporter, member 11 ). We believe that the relevance of the retrieval sets significantly influenced the quality of predictions for the respective proteins...”

LOC113810126 solute carrier family 2, facilitated glucose transporter member 1 from Penaeus vannamei
34% identity, 88% coverage

• Structure and function analyses of the Mmd2 gene in pacific white shrimp Litopenaeus vannamei
  Si, Frontiers in genetics 2023
  • “...Up protein digestion, absorption and transport LOC113814621 solute carrier family 22 member 6-like 1.561611039 Up LOC113810126 solute carrier family 2, facilitated glucose transporter member 1-like 1.384393286 Up LOC113818126 glutamate receptor 3-like 5.566253426 Down LOC113809326 proteasome subunit alpha type-7-like 4.896032637 Down LOC113813297 protein transport protein Sec61 subunit...”

Smp_105410 putative glucose transport protein from Schistosoma mansoni
36% identity, 91% coverage

• Differential Excretory/Secretory Proteome of the Adult Female and Male Stages of the Human Blood Fluke, <i>Schistosoma mansoni</i>
  Kenney, Frontiers in parasitology 2022
  • “...). Here, by contrast, significantly elevated abundance of GTP1 (Smp_012440, Q26579_SCHMA) and other glucose transporters (Smp_105410, G4VC44_SCHMA) was evident in the female S. mansoni , likely the result of an increased expression in the tegument. These discrepancies may in part be explained since transcriptomic analysis was...”
• Single-cell deconstruction of stem-cell-driven schistosome development
  Nanes, Trends in parasitology 2021
  • “...(Smp_103610); cb1.2 (Smp_067060); ctsl (Smp_343260); hmgbs (Smp_075800) Tegumental syncytial annexin b2 (Smp_077720); calpain (Smp_214190); gtp-4 (Smp_105410); npp-5 (Smp_153390); sm25 (Smp_346900); tal (Smp_045200); tsp2 (Smp_335630) progeny 1 tsp2 (Smp_335630); zfp1-1 (Smp_049580) progeny 2 onzin (Smp_101970); sm13 (Smp_195190); sm25 (Smp_346900); tsp2 (Smp_335630) Protonephdridia igsf9b (Smp_035040); sialidase (Smp_335600) Esophagus...”
• Transcriptome of the parasitic flatworm Schistosoma mansoni during intra-mammalian development
  Wangwiwatsin, PLoS neglected tropical diseases 2020
  • “...genes contributing to the enriched GO term carbohydrate transport encode two confirmed glucose transporters (Smp_012440, Smp_105410) [ 42 ] and a third, non-confirmed, putative glucose transporter (Smp_139150). Between days 28 and 35, the parasites become fully established in the portal system within the mesentery veins and...”
  • “...GO terms for all four clusters was carbohydrate transport with two glucose transporters (Smp_012440 and Smp_105410) that have been previously characterised in S . mansoni [ 42 ]. Hypothetical protein with predicted structure matching a complement cascade regulator With four genes out of ten in cluster...”
• Single-cell atlas of the first intra-mammalian developmental stage of the human parasite Schistosoma mansoni
  Diaz, Nature communications 2020
  • “...(Smp_129050) N =3, 0; epsin-4 (Smp_140330) N =3, 5; fimbrin (Smp_037230) N =0, 4; gtp-4 (Smp_105410) N =0, 3; lipopolysaccharide induced (Smp_025370) N =0, 1; rab18 (Smp_169460) N =0, 4; NMDA receptor glutamate binding chain (Smp_181470) N =0, 1; cathepsin B (Smp_141610) N =5, 3; LAP...”
• Novel cholinesterase paralogs of Schistosoma mansoni have perceived roles in cholinergic signalling and drug detoxification and are essential for parasite survival
  Tedla, PLoS pathogens 2019
  • “...levels of each smche , as well as the glucose transporters sgtp1 (smp_012440) and sgtp4 (smp_105410), were also measured. Glucose levels were normalized according to the number of viable parasites and expressed relative to the luc group. Data is the average of 2 biological and 3...”
• Inhibition of histone methyltransferase EZH2 in Schistosoma mansoni in vitro by GSK343 reduces egg laying and decreases the expression of genes implicated in DNA replication and noncoding RNA metabolism
  Pereira, PLoS neglected tropical diseases 2018
  • “...63 ]. Other validated genes encode LDL receptor, FA binding protein and Glucose transport protein (Smp_105410), components of the tegument membrane. Genes encoding the gynecophoral canal protein, involved in mating, the Dnase II protein, involved in degradation of exogenous DNA for cell homeostasis, and the FGFR...”
• MiR-277/4989 regulate transcriptional landscape during juvenile to adult transition in the parasitic helminth Schistosoma mansoni
  Protasio, PLoS neglected tropical diseases 2017
  • “...mixture of four FITC-conjugated antisense probes targeting the following tegument-specific mRNAs: calpain (Smp_214190), gtp -4 (Smp_105410), annexin (Smp_077720), and npp-5 (Smp_153390) (ref: [ 69 73 ]). Results 2.1. Target-prediction suggests sma-miR-277/4989 are prominent post-regulatory miRNAs in developing juvenile worms In our analysis, Sylamer [ 36 ]...”

Smp_046790 putative glucose transport protein from Schistosoma mansoni
36% identity, 92% coverage

• Human tumor necrosis factor alpha affects the egg-laying dynamics and glucose metabolism of Schistosoma mansoni adult worms in vitro
  Lopes-Junior, Parasites & vectors 2022
  • “...(Smp_033040), Sm TNFR (Smp_168070) and glucose transporters, S. mansoni glucose transporter protein1 (SGTP1) (Smp_012440), SGTP2 (Smp_046790), SGTP3 (Smp_127200) and SGTP4 (Smp_103410), were measured. The primer efficiencies were tested, and all of them were between 90 and 110%. Smp_090920 and Smp_062630 were used as reference genes [...”

TC 2.A.1.1.52 / Q26579 The glucose transport protein, GTP1 from Schistosoma mansoni (Blood fluke) (see paper)
GTP1 / AAA19731.1 glucose transport protein from Schistosoma mansoni (see paper)
Smp_012440 putative glucose transport protein from Schistosoma mansoni
36% identity, 91% coverage

• substrates: glucose
• Human tumor necrosis factor alpha affects the egg-laying dynamics and glucose metabolism of Schistosoma mansoni adult worms in vitro
  Lopes-Junior, Parasites & vectors 2022
  • “...of LDH (Smp_033040), Sm TNFR (Smp_168070) and glucose transporters, S. mansoni glucose transporter protein1 (SGTP1) (Smp_012440), SGTP2 (Smp_046790), SGTP3 (Smp_127200) and SGTP4 (Smp_103410), were measured. The primer efficiencies were tested, and all of them were between 90 and 110%. Smp_090920 and Smp_062630 were used as reference...”
• Differential Excretory/Secretory Proteome of the Adult Female and Male Stages of the Human Blood Fluke, <i>Schistosoma mansoni</i>
  Kenney, Frontiers in parasitology 2022
  • “...schistosome gender (Cai et al., 2016 ). Here, by contrast, significantly elevated abundance of GTP1 (Smp_012440, Q26579_SCHMA) and other glucose transporters (Smp_105410, G4VC44_SCHMA) was evident in the female S. mansoni , likely the result of an increased expression in the tegument. These discrepancies may in part...”
• Transcriptome of the parasitic flatworm Schistosoma mansoni during intra-mammalian development
  Wangwiwatsin, PLoS neglected tropical diseases 2020
  • “...The genes contributing to the enriched GO term carbohydrate transport encode two confirmed glucose transporters (Smp_012440, Smp_105410) [ 42 ] and a third, non-confirmed, putative glucose transporter (Smp_139150). Between days 28 and 35, the parasites become fully established in the portal system within the mesentery veins...”
  • “...top enriched GO terms for all four clusters was carbohydrate transport with two glucose transporters (Smp_012440 and Smp_105410) that have been previously characterised in S . mansoni [ 42 ]. Hypothetical protein with predicted structure matching a complement cascade regulator With four genes out of ten...”
• Novel cholinesterase paralogs of Schistosoma mansoni have perceived roles in cholinergic signalling and drug detoxification and are essential for parasite survival
  Tedla, PLoS pathogens 2019
  • “...exclusion and transcript levels of each smche , as well as the glucose transporters sgtp1 (smp_012440) and sgtp4 (smp_105410), were also measured. Glucose levels were normalized according to the number of viable parasites and expressed relative to the luc group. Data is the average of 2...”

GTP4 / AAA19733.1 glucose transport protein from Schistosoma mansoni (see paper)
35% identity, 91% coverage

TC 2.A.1.1.43 / A0ZXK6 The monosaccharide (MST) (glucose > mannose > galactose > fructose):H+ symporter, MST1 from Geosiphon pyriformis (see paper)
37% identity, 82% coverage

• substrates: Galactose, H+, Mannose, fructose, glucose

A6NL68 Solute carrier family 2 member 1 (Fragment) from Homo sapiens
99% identity, 23% coverage

• Quantitative proteomic analysis for high-throughput screening of differential glycoproteins in hepatocellular carcinoma serum
  Gao, Cancer biology & medicine 2015
  • “...protein OS=Homo sapiens GN=SHANK2 PE=4 SV=1 - [E7EUA2_HUMAN] 1.28 5 1 1 1,253 134.7 5.60 A6NL68 Uncharacterized protein OS=Homo sapiens GN=SLC2A1 PE=3 SV=1 - [A6NL68_HUMAN] 2.99 1 1 1 234 25.2 9.80 A2MYC8 V5-2 protein (Fragment) OS=Homo sapiens GN=V5-2 PE=1 SV=1 - [A2MYC8_HUMAN] 9.62 2 1...”

Q9LLE0 Hexose transporter (Fragment) from Solanum tuberosum
31% identity, 92% coverage

• Comparative Membrane-Associated Proteomics of Three Different Immune Reactions in Potato
  Burra, International journal of molecular sciences 2018
  • “...Q43775 Glycolate oxidase (EC 1.1.3.15) 1.01 0.18 0.67 PGSC0003DMP400009092 Glyoxisomal malate dehydrogenase 1.65 1.01 1.34 Q9LLE0 Hexose transporter 0.7 0.15 0.24 PGSC0003DMP400035078 Hydrolase, acting on ester bonds 1.91 2.36 2.58 B2D2G3 Hydroxypyruvate reductase (EC 1.1.1.81) 1.25 0.55 0.88 B9JNE9 Insertion sequence transposase protein 2.02 2.43 2.78...”

XP_021757156 plastidic glucose transporter 4-like from Chenopodium quinoa
32% identity, 81% coverage

• Salinity Effects on Guard Cell Proteome in Chenopodium quinoa
  Rasouli, International journal of molecular sciences 2021
  • “...channel subunit beta Potassium XP_021753247 monosaccharide-sensing protein 2-like Sugar XP_021726328 sugar carrier protein C-like Sugar XP_021757156 plastidic glucose transporter 4-like Sugar XP_021760460 sucrose transport protein-like isoform X1 Sucrose XP_021752898 chloride channel protein CLC-b-like anions XP_021739774 ATPase ASNA1 homolog anions XP_021772050 ADP, ATP carrier protein 1, mitochondrial-like...”

BSU35830 putative carbohydrate transporter from Bacillus subtilis subsp. subtilis str. 168
31% identity, 93% coverage

• Secondary structural entropy in RNA switch (Riboswitch) identification
  Manzourolajdad, BMC bioinformatics 2015
  • “...-55.60 - 0.4600 123.0559998 - 0.3600 899 yxeF BSU39570 0.8090547919 200 nt 3688648 3688847 reverse BSU35830 ywtG -3786 -49.93 - 0.3300 120.9260025 - 0.3550 199 yvyI BSU35790 0.8084035516 200 nt 1668788 1668987 reverse BSU15960 ylqB -2279 -51.60 - 0.4050 122.7809982 - 0.4150 13099 rpmB BSU15820 0.8080439568...”

TC 2.A.1.1.106 / P46333 Probable metabolite transport protein CsbC from Bacillus subtilis (strain 168) (see 3 papers)
32% identity, 93% coverage

• substrates: Metabolites
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P09830 P45598 P37021 P21906 P15729 U29579 X86780 P09098 P31578 P54723 U66480 P46333 P42417 P37514 SP SP SP SP SP GB GB SP SP SP GB SP SP SP Ar Sulfolobus...”

pGlcT / Q56ZZ7 glucose transporter from Arabidopsis thaliana (see 4 papers)
PLST4_ARATH / Q56ZZ7 Plastidic glucose transporter 4; AtpGlcT from Arabidopsis thaliana (Mouse-ear cress) (see paper)
TC 2.A.1.1.102 / Q56ZZ7 Plastidic glucose transporter 4 (AtpGlcT) from Arabidopsis thaliana (see 5 papers)
NP_850828 plastidic GLC translocator from Arabidopsis thaliana
AT5G16150 PGLCT (PLASTIDIC GLC TRANSLOCATOR); carbohydrate transmembrane transporter/ sugar:hydrogen symporter from Arabidopsis thaliana
32% identity, 84% coverage

• function: May be involved in the efflux of glucose towards the cytosol.
• substrates: glucose
• Do mitochondria use efflux pumps to protect their ribosomes from antibiotics?
  Islam, Microbiology (Reading, England) 2023
  • “...9E^121** Q9SYQ1, 0.00014 A0A286YF51, 0.0019 [ 73 ] TPO1 Polyamine transporter 1 MFS G1UAY0, 1.9E^141# Q56ZZ7, 0.00017 Q6ZMD2, 9.2E^6 [ 40 ] TPO3 Polyamine transporter 3 MFS Q9C0R8, 6.1E^98# A0A1I9LP99, 7.5E^5 Q7L0J3, 0.0047 [ 40, 73 ] *Information adapted from the Saccharomyces Genome Database (SGD). https://www.yeastgenome.org/....”
  • “...MFS T2AWG3, 0.0014 Q8GYF4, 1.4E^24 B3KT41, 0.0022 [ 79 ] NCU09551 Q7S2B0 MFS G1UAY0, 2.3E^6 Q56ZZ7, 2.3E^7 Q8NBP5, 8.4E^9 [ 78 ] NCU10021 Q7S0I5 MFS Q8J2J7, 8.1E^102 Q9FMX3, 2.3E^55 Q96QE2, 2.8E^41 [ 78 ] *Information gathered from NCBI Protein BLAST, algorithm: PSI-BLAST ( https://www.ncbi.nlm.nih.gov/ ) and...”
• Microsome-associated proteome modifications of Arabidopsis seedlings grown on board the International Space Station reveal the possible effect on plants of space stresses other than microgravity
  Mazars, Plant signaling & behavior 2014
  • “...protein Transporters P23586 AT1G11260 0.370 sugar transporter 1 Q8LGU1 AT3G21250 0.456 multidrug resistance-associated protein 6 Q56ZZ7 AT5G16150 0.523 Plastidic glucose transporter 4 Q53XH7 AT5G62670 0.553 H(+)-ATPase 11 Q94FB9 AT4G39850 0.559 ABC transporter D family member 1 Q9SE45 AT2G38760 0.587 annexin D3 Aquaporins Q41975 AT4G17340 0.219 putative...”
• The novel chloroplast glucose transporter pGlcT2 affects adaptation to extended light periods.
  Valifard, The Journal of biological chemistry 2023
  • GeneRIF: The novel chloroplast glucose transporter pGlcT2 affects adaptation to extended light periods.
• Role of the plastidic glucose translocator in the export of starch degradation products from the chloroplasts in Arabidopsis thaliana.
  Cho, The New phytologist 2011 (PubMed)
  • GeneRIF: pGlcT, together with MEX1, contributes significantly to the export of starch degradation products from chloroplasts in A. thaliana leaves and and that this starch-mediated pathway for photoassimilate export via pGlcT and MEX1 is essential for the growth and development of A. thaliana. [pGlcT]
• The novel chloroplast glucose transporter pGlcT2 affects adaptation to extended light periods
  Valifard, The Journal of biological chemistry 2023
  • “...of the MST-type sugar transporter family in Arabidopsis revealed that pGlcT (encoded by the gene At5g16150 ) is one of four closely related carrier isoforms representing an independent MST subgroup ( 3 ). The next homolog to pGlcT is the protein encoded by the gene At1g05030...”
  • “...Alignment of pGlcT2 with other sugar transporters (VGT1: At3g03090 , pSUT: At5g59250 , and pGLCT: At5g16150 ) was done using MEGA11 software ( 74 ) based on ClustalW ( 75 ) alignment of the corresponding amino acid sequences. The alignment was visualized using GeneDoc ( 76...”
• Nucleotide Imbalance, Provoked by Downregulation of Aspartate Transcarbamoylase Impairs Cold Acclimation in Arabidopsis
  Bellin, Molecules (Basel, Switzerland) 2023
  • “...1.97 2.05 1.48 1.49 Mt, P adenine nucleotide AT5G66380 FOLT1 0.76 1.05 0.65 PL folate AT5G16150 pGlcT 0.44 0.87 1.03 1.20 0.34 PL hexose AT1G68570 NPF3.1 2.69 2.35 0.66 0.72 PL nitrite AT4G32400 BT1-like 2.01 1.58 0.70 0.72 PL nucleotide AT1G61800 GPT2 5.90 7.61 0.39 1.65...”
• Genome-Wide Association Study to Identify Possible Candidate Genes of Snap Bean Leaf and Pod Color
  Celebioglu, Genes 2023
  • “...706,796 11.61 0.36 31.60 10.9 7.76 10 9 Phvul.008G006600 AT5G65560 Phvul.008G006700 AT5G38720 Phvul.008G006800 AT2G19540 Phvul.008G007500 AT5G16150 Phvul.008G007600 AT2G39060 Phvul.008G007700 AT5G16180 Phvul.008G008400 AT1G66840 5-593 1 G/T H.2020 50,939,307 27.26 0.08 75.89 29.3 1.47 10 23 Pv5-593.01G220900 AT5G26600 Pv5-593.01G221300 AT1G56720 Pv5-593.01G221400 Pv5-593.01G221500 AT1G09430 Pv5-593.01G221600 AT3G07100 Pv5-593.01G221800 AT1G56700 Pv5-593.01G221900...”
• An expanded role for the transcription factor WRINKLED1 in the biosynthesis of triacylglycerols during seed development
  Kuczynski, Frontiers in plant science 2022
  • “...PGI 1 (phosphoglucose isomerase, AT4G24620) (p) +20(+) 2.90.6 0.92 0.94 ** PGLCT (plastidic glucose translocator, AT5G16150) +45() 23.94.7 1.00 0.82 * PGLM 1 (phosphoglyceromutase, AT1G22170) (p) +104(+) 1.91.3 0.67 1.00 ** PGLM 2 (phosphoglyceromutase, AT1G78050) (p) +78(+) 6.74.1 1.00 0.97 ** PK p PK- (Pyruvate kinase...”
• Genome-wide identification, expression, and association analysis of the monosaccharide transporter (MST) gene family in peanut (Arachis hypogaea L.)
  Wan, 3 Biotech 2020
  • “...Regulate arsenic accumulation AhMST76 AhMST43 AhMST57 PGLCT (AT5G16150) Affecting chloroplast AtPLT6/AtPMT6 (AT4G36670) Effect pollen and young xylem cells INT1...”
• Transcriptional Plasticity of Autophagy-Related Genes Correlates with the Genetic Response to Nitrate Starvation in Arabidopsis Thaliana
  Bedu, Cells 2020
  • “...0.079 0.022 19.4% 0.005 ** GLU1 At5g04140 6.208 1.835 6.972 2.141 12.3% 0.026 * GLT At5g16150 0.284 0.110 0.372 0.139 31.0% 0.000 *** * p < 0.05, ** p < 0.01, *** p < 0.001, ns = not statistically significant. cells-09-01021-t002_Table 2 Table 2 Averages of...”
• Pan- and core- gene association networks: Integrative approaches to understanding biological regulation
  Wirojsirasak, PloS one 2019
  • “...a-Glucosidase-like 3 At5g11720 AGL4 a-Glucosidase-like 4 At1g68560 AGL5 a-Glucosidase-like 5 At5g46110 TPT1 Triose phosphate translocator At5g16150 GLT1 Glucose transporter At5g17520 MEX1 Maltose exporter The consensus-based network, proposed herein as core -GAN, is generally considered a reliable network because the constituents are supported by more than one...”
• Dynamics of metabolic responses to periods of combined heat and drought in Arabidopsis thaliana under ambient and elevated atmospheric CO2
  Zinta, Journal of experimental botany 2018
  • “...at4g10120; ADP glucose pyrophosphorylase, EC 2.7.7.27, at5g19220), and sugar transporters (sucrose-proton symporter 1/plastidic GLC translocator, at5g16150; glucose-6-phosphate translocator, at5g46110). Elevated CO 2 dampened this effect (see Supplementary Fig. S1a ). Glycolysis-related genes were generally down-regulated under stress ( Fig. S1b ). Transcripts of raffinose synthesis genes...”
• More

CG6484 uncharacterized protein from Drosophila melanogaster
36% identity, 84% coverage

• split-intein Gal4 provides intersectional genetic labeling that is repressible by Gal80
  Ewen-Campen, Proceedings of the National Academy of Sciences of the United States of America 2023
  • “...to identify two pairs of genes which mark clusters from the FCA Gut atlas: CG13321 CG6484 to label enterocyte of anterior adult midgut epithelium, and CG14275 CG5404 to label hindgut. For each gene pair, we generated two separate drug resistance knock-in vectors, with one construct resistant...”
  • “...a portion of the gut, anterior to the left. ( B ) Expression pattern of CG6484 -Gal4 N-int CG13321- Gal4 C-int in the adult gut, with anterior enterocyte regions A1-A3 ( 38 ) indicated with a bracket. Anterior is up. We injected a 1:1 mixture of...”
• Heat shock proteins and small nucleolar RNAs are dysregulated in a Drosophila model for feline hypertrophic cardiomyopathy
  Tallo, G3 (Bethesda, Md.) 2021
  • “...categories such as carbohydrate metabolic process ( Mal-A1 and Mal-A6 ), transmembrane transport ( CG17751, CG6484, CG16727 , and Mdr50 ), oxidation-reduction process ( Cyp6a21 ) and proteolysis ( Jon25Biii and ome ). In exercised females, clusters of genes were downregulated for R820W, but upregulated for...”
• Heritable shifts in redox metabolites during mitochondrial quiescence reprogramme progeny metabolism
  Hocaoglu, Nature metabolism 2021
  • “...( magro, CG6295, CG17192, CG9394, GLaz, CG8834 ), carbohydrate metabolism ( Mal-A6, Amy-d, Amy-p, Mal-A1, CG6484, CG4607 ) and nutrient transport ( CG32053, CG30272, CG8083, CG15096, Ocrt, CG2187 ). In fact when we examine the top 5 gene ontology terms enriched in the list include Proteolysis/protease/zymogen(FDR<...”
• Changes in Presynaptic Gene Expression during Homeostatic Compensation at a Central Synapse
  Harrell, The Journal of neuroscience : the official journal of the Society for Neuroscience 2021
  • “...1.2906 3.72E-07 1.61E-04 no functional information Ugt86De 477.43 1.2370 5.25E-07 2.17E-04 UDP glycosyl transferase b CG6484 322.18 1.2398 7.35E-07 2.90E-04 glucose import CheB93b 215.37 1.7419 1.21E-06 4.56E-04 pheromone detection CG7149 1784.54 0.9488 1.49E-06 5.42E-04 phosphotransferase CG31100 1430.28 1.0624 2.34E-06 8.16E-04 glucose import CG10433 1716.02 1.0842 2.70E-06...”
• Sex Differences in Intestinal Carbohydrate Metabolism Promote Food Intake and Sperm Maturation
  Hudry, Cell 2019
  • “...R4 enterocyte-specific knockdown of the following digestive enzymes and sugar transporter: Amy-p/Amy-d/Mal-A1 , Mal-A1 and CG6484 . For each genetic manipulation in this and all subsequent panels, the median number of sips was arbitrarily set up at 100% for control males, and percentage of that expression...”
  • “...(M) fly following R2 and R5 enterocyte-specific knockdown of the Maltase-A1 ( Mal-A1 ) and CG6484 enzymes. Downregulation of intestinal sugar genes sugar genes in R2 and R5 does not affect male food intake. (B) Adult wing size quantifications (used as a measurement of body size,...”
• Ade2 Functions in the Drosophila Fat Body To Promote Sleep
  Yurgel, G3 (Bethesda, Md.) 2018
  • “...692.33 1.30 25.73 39.07 FBgn0029831 33932 CG5966 828.93 179.29 649.64 0.85 29.36 29.72 FBgn0034247 60372 CG6484 1200.00 477.00 707.00 1.09 17.40 75.96 FBgn0036030 60086 CG6767 1177.00 484.00 693.00 0.83 24.40 52.88 FBgn0033385 38305 CG8055 1043.24 367.65 675.59 0.85 27.41 39.16 FBgn0034003 57404 CG8094 963.13 300.94 662.19...”
  • “...a loss of over 200 min of sleep, while a knockdown of the glucose transporter CG6484 ( CG-GAL4 > CG6484-RNAi ) and CG6767 , a kinase involved in purine/pyrimidine metabolism, ( CG-GAL4 > CG6767-RNAi ) resulted in increased sleep ( Table 1 ). We chose to...”
• Transcriptional profiling of apoptosis-deficient Drosophila mutants
  Obata, Genomics data 2014
  • “...change>1.5, p<0.05). Probe name Gene symbol p-Value Corrected p-value Fold change Entrez gene ID A_09_P137560 CG6484 1.21E07 7.59E04 826.2603 36994 A_09_P074111 CG3397 3.84E07 0.001204653 543.77155 41454 A_09_P057606 CG30091 3.29E06 0.005706159 259.83295 246449 A_09_P022946 CG6639 7.32E06 0.009384108 156.37743 35049 A_09_P012361 Dro 9.64E06 0.010052347 84.814896 36635 A_09_P164825 CG3397...”
• Genomic changes under rapid evolution: selection for parasitoid resistance
  Jalvingh, Proceedings. Biological sciences 2014
  • “...2 94 -- mRpS29, ppa, robo CG10936 Dcr-2, CG6484, lack, CG11423, CG42649, CG4844, CG18431, ssp4, CG18432, CG6522, qkr54B, CG6520, veil, CG30103, Prosalpha5,...”
• More

LOC107049937 solute carrier family 2, facilitated glucose transporter member 4-like from Gallus gallus
62% identity, 32% coverage

• Chicken GLUT4 undergoes complex alternative splicing events and its expression in striated muscle changes dramatically during development
  Luo, Poultry science 2023
  • “...region ( Figure 2A , Table 3 ), where low quality chicken GLUT4 -like gene (LOC107049937) just located. The intron-exon boundaries of these transcript variants abide by GT-AG splicing rule except E6b ( Table 3 ). Figure 1 Cloning of chicken GLUT4 . (A) PCR amplification...”

YB91_YEAST / P38142 Probable metabolite transport protein YBR241C from Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast) (see paper)
TC 2.A.1.1.96 / P38142 Probable metabolite transport protein YBR241C from Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (see 4 papers)
YBR241C Putative transporter, member of the sugar porter family; green fluorescent protein (GFP)-fusion protein localizes to the vacuolar membrane; YBR241C is not an essential gene from Saccharomyces cerevisiae
30% identity, 93% coverage

• substrates: Metabolites
• Remodeling of yeast vacuole membrane lipidomes from the log (one phase) to stationary stage (two phases)
  Reinhard, Biophysical journal 2023 (secret)
• Identification of Genetic Modifiers of TDP-43: Inflammatory Activation of Astrocytes for Neuroinflammation
  Kim, Cells 2021
  • “...60S ribosomal protein L7-B RPL7 12 YPL101W ELP4 Q02884 Elongator complex protein 4 ELP4 13 YBR241C YBR241C P38142 Probable metabolite transport protein YBR241C SLC2A1 14 YEL024W RIP1 P08067 Cytochrome b-c1 complex subunit Rieske, mitochondrial UQCRFS1 15 YEL053C MAK10 Q02197 N-alpha-acetyltransferase 35, NatC auxiliary subunit NAA35 16...”
• Oxidative Stress Responses and Nutrient Starvation in MCHM Treated Saccharomyces cerevisiae
  Ayers, G3 (Bethesda, Md.) 2020
  • “...of rDNA: RRN10 Ion Transporter/Metal Homeostasis: PHO84 Miscellaneous Function: MOG1 Miscellaneous Function: XYL2 BUD30 VVS1 (YBR241C) GUA1 TVS1 (YCR061W) PRM7 YHI9 SAM1 The other major insight of the combined screen and upregulation datasets is the presence of several amino acid biosynthetic genes. Many of these genes...”
  • “...and required for MCHM responses Of note in the combined datasets is the requirement of YBR241c for tolerance to MCHM ( Table 1 ). Ybr241c is a paralog of the vacuolar sorting protein, Vps73 , and is localized to the vacuolar membrane ( Matsumoto et al....”
• Vacuolar hydrolysis and efflux: current knowledge and unanswered questions
  Parzych, Autophagy 2019
  • “...unclear, as no vacuolar hexose exporter has been identified. Ybr241c may be worth investigating in this regard, as it is a putative transporter of the sugar...”
• Pichia pastoris regulates its gene-specific response to different carbon sources at the transcriptional, rather than the translational, level
  Prielhofer, BMC genomics 2015
  • “...Major facilitator superfamily, Quinate permease (Quinate transporter) - similar to S. stipitis 0.06 0.80 0.01 YBR241C Putative transporter, member of the sugar porter family 0.12 0.16 0.26 Pp HXT2 P. pastoris putative low affinity glucose transporter of the major facilitator superfamily 0.10 0.10 0.09 STL1-1 Glycerol...”
• The human synaptic vesicle protein, SV2A, functions as a galactose transporter in Saccharomyces cerevisiae
  Madeo, The Journal of biological chemistry 2014
  • “...HXT7 HXT6 HXT10 YDR387c HXT2 AQR1 QDR2 HXT4 HXT8 YBR241C QDR1 HXT11 STL1 HXT9 SR077 SGE1 HXT12 YDL199c TPO1 QDR3 TPO3 MCH5 TPO2 REPORT: Synaptic Vesicle...”
• Genome sequencing of four Aureobasidium pullulans varieties: biotechnological potential, stress tolerance, and description of new species
  Gostinčar, BMC genomics 2014
  • “...protein sorting-associated protein 73 or 1 1 1 1 3 2.A.1.1.96 Probable metabolite transport protein YBR241C or 2.A.1.1.100 Probable metabolite transport protein YFL040W 2.A.1.12 The sialate: H + symporter family 1 1 1 1 1 2.A.1.12.2 Lactate/pyruvate: H + symporter 1 1 1 1 1 2.A.2...”
• Genome-wide expression profiling of the response to short-term exposure to fluconazole in Cryptococcus neoformans serotype A
  Florio, BMC microbiology 2011
  • “...2.15 04617 OPT2 Small oligopeptide transporter + 2.11 05592 PMR1 Calcium-transporting ATPase + 2.06 01059 YBR241C Vacuolar membrane protein + 2.02 00904 AZR1 Aflatoxin efflux pump AFLT - 2.10 01769 AGC1 Mitochondrial inner membrane protein - 2.16 04142 FEN2 Tartrate transporter - 2.17 04567 TPO2 Drug...”
• More
• Identification of Genetic Modifiers of TDP-43: Inflammatory Activation of Astrocytes for Neuroinflammation
  Kim, Cells 2021
  • “...protein L7-B RPL7 12 YPL101W ELP4 Q02884 Elongator complex protein 4 ELP4 13 YBR241C YBR241C P38142 Probable metabolite transport protein YBR241C SLC2A1 14 YEL024W RIP1 P08067 Cytochrome b-c1 complex subunit Rieske, mitochondrial UQCRFS1 15 YEL053C MAK10 Q02197 N-alpha-acetyltransferase 35, NatC auxiliary subunit NAA35 16 YHR161C YAP1801...”
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P30605 X98622 P30606 S51081 P07921 P38156 P15685 P18631 X96876 Q10710 P38142 S58778 U32274 P43562 Z72626 P40441 P47186 P10870 P39932 GB SP GB SP SP SP SP SP SP...”

GLCP_STAES / A0A0H2VG78 Glucose transporter GlcP; Glucose/H(+) symporter from Staphylococcus epidermidis (strain ATCC 12228 / FDA PCI 1200) (see paper)
SERP_RS11465 sugar porter family MFS transporter from Staphylococcus epidermidis RP62A
31% identity, 82% coverage

• function: Transporter highly specific for glucose uptake.
• The Vancomycin Resistance-Associated Regulatory System VraSR Modulates Biofilm Formation of Staphylococcus epidermidis in an ica-Dependent Manner
  Wu, mSphere 2021
  • “...GntR family transcriptional regulator 0.43 ND SERP_RS10290 NC_002976.3 (20944682095742) Glucarate transporter, MFS transporter 0.33 ND SERP_RS11465 NC_002976.3 (23715842372924) Sugar porter family MFS transporter 0.28 ND SERP_RS10325 NC_002976.3 (21009732102937) Fructose-1,6-bisphosphatase 0.47 ND glpF NC_002976.3 (879638880462) Glycerol transporter, aquaporin family protein 0.22 ND glpK NC_002976.3 (880616882115) Glycerol kinase...”

SE0247 bicyclomycin resistance protein TcaB from Staphylococcus epidermidis ATCC 12228
31% identity, 82% coverage

• Comprehensive characterization of the contribution of individual SigB-dependent general stress genes to stress resistance of Bacillus subtilis
  Höper, Journal of bacteriology 2005
  • “...(2.6e-99) Bicyclomycin resistance protein TcaB SE0247, Staphylococcus epidermidis (4.3e-129) Conserved protein MM2677, Methanosarcina mazei (6.3e-09) Ribosomal...”

E4NW64 MFS transporter, sugar porter family from Halogeometricum borinquense (strain ATCC 700274 / DSM 11551 / JCM 10706 / KCTC 4070 / PR3)
31% identity, 79% coverage

• An efficient strategy for small-scale screening and production of archaeal membrane transport proteins in Escherichia coli.
  Ma, PloS one 2013
  • “...vannielii 43.1 11 In MMP0681 Q6LZE8 NCS2 uracil/xanthine c M. maripaludis 42.9 11 In Hbor39700 E4NW64 SP sugar H. borinquense 48.3 12 In AF2014 Q28265 SP sugar A. fulgidus 45.0 12 In Ta0252 Q9HLH6 SP D-xylose T. acidophilum 52.7 12 In Msed1117 AYF4S8 SP sugar M....”

Smp_127200 hypothetical protein from Schistosoma mansoni
34% identity, 74% coverage

• Human tumor necrosis factor alpha affects the egg-laying dynamics and glucose metabolism of Schistosoma mansoni adult worms in vitro
  Lopes-Junior, Parasites & vectors 2022
  • “...TNFR (Smp_168070) and glucose transporters, S. mansoni glucose transporter protein1 (SGTP1) (Smp_012440), SGTP2 (Smp_046790), SGTP3 (Smp_127200) and SGTP4 (Smp_103410), were measured. The primer efficiencies were tested, and all of them were between 90 and 110%. Smp_090920 and Smp_062630 were used as reference genes [ 22 ]....”
• Fast evolutionary rates associated with functional loss in class I glucose transporters of Schistosoma mansoni
  Cabezas-Cruz, BMC genomics 2015
  • “...sequence. In the case of SGTP3, a similar strategy was adopted, based on the sequence (Smp_127200) predicted by genome annotation [ 59 ]. We carried out 5 and 3 RACE PCR using the oligonucleotides: sgtp35.1 5 CTGCCGCGCCACGTGACTTTATT 3, sgtp3 5.2, 5 TTGTTGGGATAGAAAGAAGGAAT 3, smgtp3 3.1 5...”
• Revisiting glucose uptake and metabolism in schistosomes: new molecular insights for improved schistosomiasis therapies
  You, Frontiers in genetics 2014
  • “...loss of function (Skelly et al., 1994 ). In silico annotation has indicated that SGTP3 (Smp_127200) is the most recently identified component considered as a potential glucose transporter in S. mansoni (Krautz-Peterson et al., 2010 ) but further functional investigation is required to confirm this observation....”
• Suppressing glucose transporter gene expression in schistosomes impairs parasite feeding and decreases survival in the mammalian host
  Krautz-Peterson, PLoS pathogens 2010
  • “...now be identified. The gene, which we designate SGTP3, is currently identified as hypothetical protein Smp_127200. Searches of dbEST reveal that ESTs exist for all four SGTP genes demonstrating that these genes are expressed in mammalian stage schistosomes. Because SGTP1 and SGTP4 are clearly demonstrated to...”

Q7UF68 Xylose transporter from Rhodopirellula baltica (strain DSM 10527 / NCIMB 13988 / SH1)
33% identity, 93% coverage

• Bioinformatic analyses of integral membrane transport proteins encoded within the genome of the planctomycetes species, Rhodopirellula baltica
  Paparoditis, Biochimica et biophysica acta 2014
  • “...2.A Carrier-type Facilitators 2.A.1 Major Facilitator Superfamily (MFS) 2.A.1.1.3 P0AGF4 12 sugar xylose:H + symporter Q7UF68 12 2.A.1.2.27 Q7VW14 12 siderophores alcaligin siderophore Q7UEL1 11 2.A.1.2.39 Q5JAK9 12 specific drugs tetracycline Q7UXZ3 12 2.A.1.3.26 P36554 14 multiple drugs novobiocin/deoxycho late Q7UPX7 12 2.A.1.3.45 E5Y3Y1 13 unknown...”

F9ULF8 Myo-inositol (And similar sugars) transporter,major facilitator superfamily (MFS) from Lactiplantibacillus plantarum (strain ATCC BAA-793 / NCIMB 8826 / WCFS1)
29% identity, 95% coverage

• Phenotypic and proteomic differences in biofilm formation of two Lactiplantibacillus plantarum strains in static and dynamic flow environments
  Huijboom, Biofilm 2024
  • “..._0256 Cystathionine beta-synthase cbs 5.2 13 F9ULG2 lp _3608 Myo-inositol 2-dehydrogenase-like (Promiscuous) - 5.1 14 F9ULF8 lp _3604 Myo-inositol (And similar sugars) transporter, major facilitator superfamily iolT1 4.3 15 Q88S38 lp _3606 Inositol 2-dehydrogenase/D-chiro-inositol 3-dehydrogenase iolG 4.2 16 F9ULG4 lp _3612 Myo-inositol 2-dehydrogenase-like (Promiscuous) - 3.8...”

BT_0794 D-xylose transporter XylE from Bacteroides thetaiotaomicron VPI-5482
BT0794 D-xylose-proton symporter (D-xylose transporter) from Bacteroides thetaiotaomicron VPI-5482
29% identity, 92% coverage

• An expanded transcriptome atlas for Bacteroides thetaiotaomicron reveals a small RNA that modulates tetracycline sensitivity
  Ryan, Nature microbiology 2024
  • “...indicated. i , Xylose vs. glucose. Genes belonging to the xylose utilization operon BT_0791 - BT_0794 (Ref. 13 ) are indicated. j , Maltose vs. glucose. Genes belonging to the starch utilization system ( sus ) operon BT_3704 - BT_3698 (Refs. 72 , 73 ) are...”
• Functional genetics of human gut commensal Bacteroides thetaiotaomicron reveals metabolic requirements for growth across environments
  Liu, Cell reports 2021
  • “...most amino acids. Genes from the xylose utilization pathway (BT0792, xylulose kinase; BT0793, xylose isomerase; BT0794, xylose transporter) were important for growth on xylose only ( Figure 1B ). This example illustrates the biological consistency of fitness assays using our mutant library. To create a gene-phenotype...”
• A Master Regulator of Bacteroides thetaiotaomicron Gut Colonization Controls Carbohydrate Utilization and an Alternative Protein Synthesis Factor
  Townsend, mBio 2020
  • “...glucuronate utilization genes ( BT1434 to BT1432 ) (D), xylose utilization genes ( BT0791 to BT0794 ) (E), the alanine dehydrogenase gene ( BT1554 ) (F), rnfABCDEF (G), and fusA2 ( BT2167 ) (H). Black represents the input DNA, and red represents the immunoprecipitated DNA. Data...”
  • “...(arabinose utilization), BT1272 to BT1277 (fucose utilization), BT1434 to BT1432 (glucuronate utilization), and BT0791 to BT0794 (xylose utilization), as well as BT2818 to BT2825 , BT0453 to BT0449 , BT0439 to BT0443 , and BT4299 to BT4295 , which are predicted to mediate polysaccharide utilization (...”

C0P753 Sugar transporter ERD6-like 6 from Zea mays
30% identity, 89% coverage

• Phosphoproteomic Analysis of Two Contrasting Maize Inbred Lines Provides Insights into the Mechanism of Salt-Stress Tolerance
  Zhao, International journal of molecular sciences 2019
  • “...in Zheng58 ( Figure 7 ). Proteins including sodium/hydrogen exchanger (A0A096Q7K1, Zm.82157), sugar transport protein (C0P753, ERD6), glutamate synthase (A0A096RAH5, Zm.24266), and one uncharacterized protein (transport activity, B4FC34, GRMZM2G082184) constituted the first group. These proteins are related to sodium transport, amino acid transport/metabolism, and sugar transport....”

A0A1U8L877 Sugar transporter ERD6-like 6 from Gossypium hirsutum
32% identity, 91% coverage

• Integrative physiological, biochemical, and proteomic analysis of the leaves of two cotton genotypes under heat stress
  Perveen, PloS one 2025
  • “...2.535 NA 1.647 NA 3 A0A1U8IL78 aquaporin TIP1-3 + NA 1.487 NA 3.208 NA 4 A0A1U8L877 ERD6-6 + NA 1.365 NA 3.908 NA In addition to other significant proteins involved in various mechanisms, we identified differentially abundant proteins related to transport. According to the Gene Ontology...”

TC 2.A.1.1.98 / Q9FRL3 Sugar transporter ERD6-like 6 from Arabidopsis thaliana (see 3 papers)
AT1G75220 integral membrane protein, putative from Arabidopsis thaliana
30% identity, 91% coverage

• substrates: Sugars
• Improving power of genome-wide association studies via transforming ordinal phenotypes into continuous phenotypes
  Yang, Frontiers in plant science 2023
  • “...2,3* sequence-specific DNA binding transcription factor activity AT2G18350 Glyma16g25310 # 29252235 pLARmEB 2,3* transmembrane transport AT1G75220 Glyma16g25320 # 29252235 pLARmEB 2,3* transmembrane transport AT1G75220 Glyma19g39270 46014852 FASTmrMLM 1* , pKWmEB 1* , pLARmEB 1* response to oxidative stress AT4G11290 Glyma19g39320 46014852 FASTmrMLM 1* , pKWmEB 1*...”
• Vacuolar Sugar Transporter TMT2 Plays Crucial Roles in Germination and Seedling Development in Arabidopsis
  Cao, International journal of molecular sciences 2023
  • “...(AT3G51490) , SAUR22 (AT5G18050) , SAUR23 (AT5G18060) , SAUR26 (AT3G03850) , SWEET2 (AT3G14770) , ERDL6 (AT1G75220) , DAO2 (AT1G14120) , PIN6 (AT1G77110) , CYP79B3 (AT2G22330) , TOR (AT1G50030) , KIN11 (AT3G29160) , E2F1 (AT5G22220) , ACTIN2 (AT3G18780) , ACTIN8 (AT1G49240) . Acknowledgments We are grateful to...”
• Responsiveness of Early Response to Dehydration Six-Like Transporter Genes to Water Deficit in Arabidopsis thaliana Leaves
  Slawinski, Frontiers in plant science 2021
  • “...stable during this process (Quirino et al., 2001 ). AtESL1.02/ERDL6 (early responsive to dehydration-like six At1g75220 ) is a vacuolar H + /glucose symporter involved in the export of glucose from the vacuole to cytosol (Klemens et al., 2014 ). This expression is regulated by the...”
  • “...USA). Quantitative PCR Analysis The expression analysis of the 17 AtESL : AtESL1.01 (At1g19450), AtESL1.02/ERDL6 (At1g75220), AtESL2.01/ZIF2 (At2g48020), AtESL2.02 (At3g5150), and AtESL2.03 (At5g18840), AtESL3.01 (At1g54730), AtESL3.02 (At4g4750), AtESL3.03 (At4g04760), AtESL3.04 (At3g20460), AtESL3.05/ESL3 (At1g08890), AtESL3.06/ESL2 (At1g08900), AtESL3.07/ESL1 (At1g08920) , AtESL3.08/ERD6 (At1g08930) , AtESL3.10 (At3g05400), AtESL3.11 (At3g05160), AtESL3.13/SFP1...”
• Early Response to Dehydration Six-Like Transporter Family: Early Origin in Streptophytes and Evolution in Land Plants
  Slawinski, Frontiers in plant science 2021
  • “...into the vacuole (Remy et al., 2014 ). AtERDL6 (Early Responsive to Dehydration-Like six - At1g75220) is a tonoplastic H +g /glucose symporter involved in the export of glucose from the vacuole under the conditions that require the mobilization of vacuolar carbohydrate reserves. The expression of...”
  • “...group Gene ID AtERD6-Llke x New names ESL1 B1a At1g19450 AtERD6-Like 4 ESL1.01 ESL1 B1b At1g75220 AtERD6-Like 6 ESL1.02/ERDL6 ESL2a B2 At2g48020 AtERD6-Like 7 ESL2.01/ZIF2 ESL2a B3 At3g05150 AtERD6-Like 8 ESL2.02 ESL2b B4 At5g18340 AtERD6-Like 16 ESL2.03 ESL3a B5 At1g54730 AtERD6-Like 5 ESL3.01 ESL3b B6a At4g04750...”
• Shotgun proteomics of peach fruit reveals major metabolic pathways associated to ripening
  Nilo-Poyanco, BMC genomics 2021
  • “...GLUCOSE-1-PHOSPHATE ADENYLYLTRANSFERASE LARGE SUBUNIT 2, CHLOROPLASTIC AT1G27680 Prupe.1G378500 0.998 2 Up_O1 SUGAR TRANSPORTER ERD6-LIKE 4-RELATED AT1G75220 Carbohydrates/Energy Metabolism Prupe.4G124500 0.998 2 Qualit_O1 Isocitrate dehydrogenase [NADP] AT1G54340 Prupe.3G288200 0.15 0 Up_O1 ISOCITRATE DEHYDROGENASE [NADP], CHLOROPLASTIC/MITOCHONDRIAL AT5G14590 Carbohydrates Metabolism/Redox Metabolism Prupe.2G091600 0.5 1 Up_O1 Malate dehydrogenase (NADP(+)) /...”
• Large-Scale Phosphoproteomic Study of Arabidopsis Membrane Proteins Reveals Early Signaling Events in Response to Cold
  Kamal, International journal of molecular sciences 2020
  • “...E,A * AT4G35300 TMT2 tonoplast monosaccharide transporter2 V,PM Solute transport HGS[+80]TMSR S 287 D * AT1G75220 ERDL6 Major facilitator superfamily protein V,PM Solute transport RPFIHTGS[+80]WYR S 23 D * AT2G18960 AHA1 H[+]-ATPase 1 PM Solute transport T[+80]LHGLQPKEDVNIFPEKGSYR T 881 D * AT2G18960 AHA1 H[+]-ATPase 1 PM...”
• A Genomic and Transcriptomic Overview of MATE, ABC, and MFS Transporters in Citrus sinensis Interaction with Xanthomonas citri subsp. citri
  Julião, Plants (Basel, Switzerland) 2020
  • “...ABC G Pistacia vera ABC G32 At2g26910 Cs3g24900 XP_006473508.3 STP Pyrus x bretschneideri ERD6-like 6 At1g75220 Limit a sugar source of Xanthomonas citri subsp. citri Cs1g24180 KDO79562.1 STP Durio zibethinus ERD6-like 6 At1g69650 Cs5g32060 XP_006479807.1 STP Pistacia vera ERD6-like 7 At2g45820...”
• Greenbug (Schizaphis graminum) herbivory significantly impacts protein and phosphorylation abundance in switchgrass (Panicum virgatum)
  Zogli, Scientific reports 2020
  • “...S EEEKKAEEALEAAAGDEAAVIDGAGSFK DEGs-up DPs-up Pavir.3KG261700 AT4G15530 Pyruvate orthophosphate dikinase 1 S DFEGIFR DEG-down DPs-down Pavir.3KG310400 AT1G75220 Major facilitator superfamily protein AGGAGYE S GSDHDGALQKPLLPNSGSWYR DEG-down DPs-down Pavir.3KG402302 AT1G15140 FAD/NAD(P)-binding oxidoreductase VVQLTQQFQQ S FLEQNLGEK DEG-down DPs-up Pavir.3NG065800 AT1G75240 Homeobox protein 33 VHLVGDPEHLGQLGGGMPLPEPGGPGR S P S PSR S PPPQQLR...”
• More
• Mutations in SLC2A2 gene reveal hGLUT2 function in pancreatic β cell development
  Michau, The Journal of biological chemistry 2013
  • “...P32465 for yeast (Saccharomyces cerevisiae) HXT1; and Q9FRL3 for plant (Arabidopsis thaliana) sugar transporter protein STP1. Molecular Biology--Human SLC2A2...”

LLKF_1623 D-xylose-proton symporter from Lactococcus lactis subsp. lactis KF147
32% identity, 90% coverage

• Lactococcus lactis metabolism and gene expression during growth on plant tissues
  Golomb, Journal of bacteriology 2015
  • “...in ATL. (A) Genes involved in xylose/xylan metabolism (llkf_1623 to -1630); (B) genes involved in D-glucuronate metabolism (llkf_1783 to -1790); (C) genes...”
• Genome-scale diversity and niche adaptation analysis of Lactococcus lactis by comparative genome hybridization using multi-strain arrays
  Siezen, Microbial biotechnology 2011
  • “...rliB Transcriptional regulator, GntR family LLKF_1614 ypdD Alpha1,2mannosidase (EC 3.2.1.24) LLKF_1615 ptk Phosphoketolase (EC 4.1.2.9) LLKF_1623 xylT d xyloseproton symporter LLKF_1624 xylX Acetyltransferase (EC 2.3.1.) LLKF_1625 xynB Beta1,4xylosidase LLKF_1626 xynT Xyloside transporter LLKF_1627 xylM Aldose1epimerase (EC 5.1.3.3) LLKF_1628 xylB Xylulose kinase (EC 2.7.1.17) LLKF_1859 arcC Carbamate...”

GOX0649 Sugar-proton symporter from Gluconobacter oxydans 621H
30% identity, 95% coverage

• A tunable L-arabinose-inducible expression plasmid for the acetic acid bacterium Gluconobacter oxydans
  Fricke, Applied microbiology and biotechnology 2020
  • “...with 46 to 56% sequence identity. GOX0808 (56% identity) is annotated as a galactose-proton symporter, GOX0649 (51% identity) as a sugar-proton symporter, and GOX1971 (46% identity) also as a galactose-proton symporter. One or several of these transporters might be promiscuous and poorly take up l -arabinose...”
• Global mRNA decay and 23S rRNA fragmentation in Gluconobacter oxydans 621H
  Kranz, BMC genomics 2018
  • “...2.6 2.8 198 GOX0025 amino acid permease 2.5 142 GOX2207 methylenetetrahydrofolate reductase 2.6 2.6 547 GOX0649 sugar-proton symporter 2.6 2.6 364 GOX2378 short chain alcohol dehydrogenase 2.6 2.6 301 GOX1151 hypothetical protein 2.5 2.5 2854 GOX1696 hypothetical protein 2.5 2.5 35 GOX2067 manganese transport protein MntH...”

HAH_5129 sugar porter family MFS transporter from Haloarcula hispanica ATCC 33960
30% identity, 78% coverage

• A conserved transcription factor controls gluconeogenesis via distinct targets in hypersaline-adapted archaea with diverse metabolic capabilities
  Hackley, PLoS genetics 2024
  • “...4 * 92.46 yes promoter HAH_4332 gdh glucose dehydrogenase 5 * 85.71 5.96 yes promoter HAH_5129 4.72 sugar porter family MFS transporter 6 * 49.84 4.46 yes promoter promoter HAH_1365 HAH_1366 porA flavodoxin reductase family I pyruvate:ferredoxin oxidoreductase 7 * 47.56 yes promoter HAH_0887 cysK -1.36...”
  • “...5 , hypergeometric test). Notably, the second largest peak is located in the promoter of HAH_5129, a sugar major facilitator superfamily (MFS) transporter (PF00083, e-value < 3.0 10 123 ), highlighting this gene as a candidate for the primary glucose transporter in Har. hispanica . Computational...”

lpp0488 hypothetical protein from Legionella pneumophila str. Paris
31% identity, 93% coverage

• Isotopologue profiling of Legionella pneumophila: role of serine and glucose as carbon substrates
  Eylert, The Journal of biological chemistry 2010
  • “...lpp0483 to lpp0487 were co-transcribed; however, gene lpp0488 encoding a putative glucose transporter was transcribed separately (Fig. 7). To exclude possible...”
  • “...pgl; lpp0485, edd; lpp0486, glk; lpp0487, eda; lpp0488 (putative sugar transport protein); lpp0150, sdhB (substrate of the Dot/Icm system); lpp0151, pykA;...”

DB43_AL00090 sugar porter family MFS transporter from Parachlamydia acanthamoebae
30% identity, 90% coverage

• A Genomic and Transcriptomic Overview of MATE, ABC, and MFS Transporters in Citrus sinensis Interaction with Xanthomonas citri subsp. citri
  Julião, Plants (Basel, Switzerland) 2020
  • “...MAFFT version 7.4 [ 81 ], with standard parameters. The outgroup sequences AK812_OLP99436, AK812_OLP95568, and DB43_AL00090, were retrieved from HMMER Ensembl Genomes. The best-of-fit model LG+G+F [ 82 ] was estimated for both ABC and MFS datasets, while WAG+G+F [ 83 ] for the MATE dataset...”
  • “...Citrus spp. identified in the citrus reference transcriptome. Numbers above the branches represent bootstrap values. DB43_AL00090 was used as outgroup ( Parachlamydia acanthamoebae , gene ywtG, putative metabolite transport protein YwtG), Figure S3: Maximum likelihood tree of MFS amino acid sequences expressed by Citrus spp. identified...”

Q688W0 Os05g0567800 protein from Oryza sativa subsp. japonica
30% identity, 89% coverage

• An integrated "omics" approach to the characterization of maize (Zea mays L.) mutants deficient in the expression of two genes encoding cytosolic glutamine synthetase.
  Amiour, BMC genomics 2014
  • “...TC192492 Signalling Peptidyl-prolyl cis-trans isomerase {Os} A2WYA7 0.04 TC256186 Transport Putative integral membrane protein {Os} Q688W0 0.02 gln1.4 mutant TC260113 Photosynthesis 23-kDa polypeptide photosystem II {Nt} Q04126 200.22 TC266788 Metabolism Putative NADPH HC toxin reductase {Os} Q7X6N6 107.17 TC199171 Proteolysis Putative uncharacterized protein {Os} Q75K52 67.99...”

AFE_2312, AFE_RS10630 sugar porter family MFS transporter from Acidithiobacillus ferrooxidans ATCC 23270
33% identity, 76% coverage

• Characterize the Growth and Metabolism of <i>Acidithiobacillus ferrooxidans</i> under Electroautotrophic and Chemoautotrophic Conditions
  Wang, Microorganisms 2024
  • “...protein 1.66 novel0005 - MULTISPECIES: ferredoxin family protein 1.57 AFE_RS09710 AFE_RS09710 ABC-2 transporter permease 1.49 AFE_RS10630 AFE_RS10630 sugar porter family MFS transporter 1.28 AFE_RS13730 AFE_RS13730 peptide ABC transporter substrate-binding protein 1.19...”
• Enhancement Mechanism of Stibnite Dissolution Mediated by Acidithiobacillus ferrooxidans under Extremely Acidic Condition
  Wang, International journal of molecular sciences 2022
  • “...AFE_1652 (encoding oxidoreductase alpha subunit), AFE_1651 (encoding 3-hydroxyisobutyrate dehydrogenase family protein), AFE_1589 (encoding DNA-damage-inducible protein), AFE_2312 (encoding Major facilitator superfamily (MFS) transporter), AFE_1636 (encoding hypothetical protein). These up-regulated genes are mainly annotated as the function of metabolic process, cellular process, binding, catalytic activity, transporter activity, molecular...”
  • “...transfer in the biotransformation of Sb (III) in the presence of trace iron. In addition, AFE_2312 is very similar to xylose and galactose proton symporters, which is proposed to be related to the MFS transporter superfamily contributing to the carbohydrate transporter of the outer membrane [...”

XNR_0140 sugar porter family MFS transporter from Streptomyces albidoflavus
30% identity, 95% coverage

• Insights into naturally minimised Streptomyces albus J1074 genome
  Zaburannyi, BMC genomics 2014
  • “...36 ]. Genes are present for efflux proteins for daunorubicin (XNR_2457-58, XNR_4042-43), camphor (XNR_2486-87), bicyclomycin (XNR_0140), tetracycline (XNR_3352) and one putative macrolide glycosyltransferase (XNR_4394). S. albus contains two genes for tryptophanyl-tRNA synthetase: XNR_3910 and XNR_3513, of which the latter is an ortholog of indolmycin-resistant Trp-synthetase from...”

orf9 major facilitator superfamily permease-possibl y sugar transporter from Gramella forsetii KT0803
31% identity, 89% coverage

• A Thermostable Bilirubin-Oxidizing Enzyme from Activated Sludge Isolated by a Metagenomic Approach
  Kimura, Microbes and environments 2016
  • “...ORF8 5966 .. 6385 420 Taurine dehydrogenase small subunit Roseobacter denitrificans OCh 114 37% (26/70) ORF9 9326 .. 9904 579 Hypothetical protein MED217_02670 Flavobacterium sp. MED217 65% (116/176) ORF10 9935 .. 11089 1155 Periplasmic sensor signal transduction histidine kinase Roseiflexus castenholzii DSM 13941 42% (159/374) ORF11...”

lpg0421 D-xylose (galactose, arabinose)-proton symporter from Legionella pneumophila subsp. pneumophila str. Philadelphia 1
31% identity, 93% coverage

• Mammalian Solute Carrier (SLC)-like transporters of Legionella pneumophila
  Best, Scientific reports 2018
  • “...sequence from the human SLC2 and SLC5 family, we identified two putative SLC-like glucose transporters, lpg0421 (33%/50%) and lpg1653 (30%/48%) (Table 1 ). Structural modeling of these proteins was done using the Iterative Threading Assembly Refinement (I-TASSER) server, which is a bioinformatics algorithm for predicting three-dimensional...”
  • “...SLCs. Amino acid identity (BLAST) Amino acid similarity (BLAST) Putative substrates Representative SLC, TM-score LstA (Lpg0421) 33% 50% Glucose and other monosaccharides SLC2a1 (0.903) LstB (Lpg1653) 30% 48% Glucose and other monosaccharides SLC2a1 (0.922) LstC (Lpg0026) 37% 56% Cationic amino acids (arginine, lysine, ornithine) SLC7a1 (0.953)...”
• Metabolism of the vacuolar pathogen Legionella and implications for virulence
  Manske, Frontiers in cellular and infection microbiology 2014
  • “...uptake of sugars have not been studied in molecular detail at present. The gene ywtG (lpg0421) is conserved among L. pneumophila and L. longbeachae , and annotated as a putative D-xylose (galactose, arabinose)-proton symporter (Cazalet et al., 2004 , 2010 ). However, arabinose appears to be...”

AT1G54730 sugar transporter, putative from Arabidopsis thaliana
31% identity, 81% coverage

• The Arabidopsis U1 snRNP regulates mRNA 3'-end processing
  Mangilet, Nature plants 2024
  • “...snRNP conducts a distinct function (telescripting) compared with the U2 snRNP. In the case of AT1G54730 , pladienolide B or herboxidiene caused an increase in mRNAs containing the 5SS, but not in mRNAs containing the 3SS. These results suggest that for some introns, inhibiting splicing efficiency,...”
• Early Response to Dehydration Six-Like Transporter Family: Early Origin in Streptophytes and Evolution in Land Plants
  Slawinski, Frontiers in plant science 2021
  • “...ESL2.01/ZIF2 ESL2a B3 At3g05150 AtERD6-Like 8 ESL2.02 ESL2b B4 At5g18340 AtERD6-Like 16 ESL2.03 ESL3a B5 At1g54730 AtERD6-Like 5 ESL3.01 ESL3b B6a At4g04750 AtERD6-Like 14 ESL3.02 ESL3b B6b At4g04760 AtERD6-Like 15 ESL3.03 ESL3b B7 At3g20460 AtERD6-Like 13 ESL3.04 ESL3C B8a At1g08890 AtERD6-Like 1 ESL3.0S/ESL3 ESL3C B8b At1g08900...”
• Responsiveness of Early Response to Dehydration Six-Like Transporter Genes to Water Deficit in Arabidopsis thaliana Leaves
  Slawinski, Frontiers in plant science 2021
  • “...17 AtESL : AtESL1.01 (At1g19450), AtESL1.02/ERDL6 (At1g75220), AtESL2.01/ZIF2 (At2g48020), AtESL2.02 (At3g5150), and AtESL2.03 (At5g18840), AtESL3.01 (At1g54730), AtESL3.02 (At4g4750), AtESL3.03 (At4g04760), AtESL3.04 (At3g20460), AtESL3.05/ESL3 (At1g08890), AtESL3.06/ESL2 (At1g08900), AtESL3.07/ESL1 (At1g08920) , AtESL3.08/ERD6 (At1g08930) , AtESL3.10 (At3g05400), AtESL3.11 (At3g05160), AtESL3.13/SFP1 (At5g27350), and AtESL3.14/SFP2 (At5g27360) of other vacuolar SUTs: AtSWEET16...”
• Transcriptomic and proteomic approach to identify differentially expressed genes and proteins in Arabidopsis thaliana mutants lacking chloroplastic 1 and cytosolic FBPases reveals several levels of metabolic regulation
  Soto-Suárez, BMC plant biology 2016
  • “...up-regulated in cyfbp roots, whereas two monosaccharide transporters were down-regulated in this organ (At1g34580 and At1g54730) (Additional file 1 : Table S1 and Additional file 5 : Table S4). Validation of differentially expressed genes, using QRT-PCR To validate the cfbp1 and cyfbp microarray results, we performed...”
• Phylloxera (Daktulosphaira vitifoliae Fitch) alters the carbohydrate metabolism in root galls to allowing the compatible interaction with grapevine (Vitis ssp.) roots
  Griesser, Plant science : an international journal of experimental plant biology 2015
  • “...hexose transporter VvTMT2 (at4g35300) 0.32 0.0084 0.7 0.7 0.7 * TC118374 GSVIVT01022034001 ERD6-like transporter Vverd6-like5 (at1g54730) 0.36 0.0010 n.d. n.d. n.d. TC112781 f GSVIVT01022026001 ERD6-like transporter Vverd6-like3 (at1g08920) 0.86 4.52E05 n.d. n.d. n.d. TC110704 GSVIVT01011047001 ERD6-like transporter Vverd6-like7 (at2g48020) 0.56 0.0001 n.d. n.d. n.d. TC123985 GSVIVT01017836001...”
• Fusarium oxysporum f.sp. ciceri race 1 induced redox state alterations are coupled to downstream defense signaling in root tissues of chickpea (Cicer arietinum L.)
  Gupta, PloS one 2013
  • “...TRANSPORTERS ABC transporter like protein - - TC05017 AT2G34250 Substrate transporter (carbohydrate) - - TC16724 AT1G54730 Heavy metal transporter/ detoxyfying protein (FAR1 related sequence 6: FRS6) - - TC07483 AT1G52520 Translocase (chloroplast 34) - - TC14372 AT5G05000 Polyol transporter protein PLT PLT5 TC04362 AT3G18830 B. CELLULAR...”
• SUT Sucrose and MST Monosaccharide Transporter Inventory of the Selaginella Genome
  Lalonde, Frontiers in plant science 2012
  • “...The alleles of XP 001776003 (pGLT) and XP 00175457 (PLT) were not found . 4 AT1G54730 and AT3G05155 are not in the phylogenetic tree . Consistent with sugar alcohols being involved in resurrection, there are both inositol and polyol transporter homologs in Selaginella . All three...”
• Isolation and functional characterization of cold-regulated promoters, by digitally identifying peach fruit cold-induced genes from a large EST dataset
  Tittarelli, BMC plant biology 2009
  • “...protein; At1g08820 C208 9 2 GTP-binding secretory factor SAR1A; At4g02080 C235 5 4 Sugar transporter; At1g54730 C484 11 6 Porin; At5g67500 C1526 5 4 emp24/gp25L/p24 protein; At3g22845 Transport (GO:0006810) C2062 3 2 Ripening-responsive protein; At1g47530 C2236 3 2 Ras-related GTP-binding protein; At4g35860 C2476 9 1 Bet1...”

PITG_13001 glucose transporter, putative from Phytophthora infestans T30-4
30% identity, 92% coverage

• Genome-wide prediction and functional validation of promoter motifs regulating gene expression in spore and infection stages of Phytophthora infestans
  Roy, PLoS pathogens 2013
  • “...PITG_03512, and PITG_03513). A second example is an array of genes annotated as glucose transporters (PITG_13001 to PITG_13007). Such observations are consistent with prior studies that showed that genes induced in this pre-infection stage are rapidly evolving and prone to duplication [29] . 10.1371/journal.ppat.1003182.g002 Figure 2...”

DV527_RS12535 sugar porter family MFS transporter from Staphylococcus saprophyticus
31% identity, 78% coverage

• Transcriptome Analysis of Halotolerant Staphylococcus saprophyticus Isolated from Korean Fermented Shrimp
  Jo, Foods (Basel, Switzerland) 2022
  • “...Betainealdehyde dehydrogenase 5.74 4.69 MFS transporter DV527_RS02780 Sugar porter family MFS transporter 0.48 2.56 3.03 DV527_RS12535 Sugar porter family MFS transporter 1.01 2.03 3.03 DV527_RS02165 MFS transporter 1.45 4.96 3.51 DV527_RS11830 MFS transporter 0.25 0.70 0.95 DV527_RS02855 Multidrug efflux MFS transporter 0.64 1.53 0.90 DV527_RS02475 MFS...”

LOC112741105 sugar transporter ERD6-like 16 from Arachis hypogaea
30% identity, 92% coverage

• Transcriptomic Analysis Provides Insights into the Differential Effects of Aluminum on Peanut (Arachis hypogaea L.)
  Bao, Genes 2022
  • “...R 5-GAGGCGGAGGAGGAGTAGTTCTG-3 AhMYB14 LOC112722417 F 5-AACCTGCACCGTGTCTGATGTTG-3 R 5-AAGCCGAATGTCTTGATGGAGTCTG-3 AhMYB44 LOC112766377 F 5-GACCCGTTGACTGCGTTGACTC-3 R 5-CTCACTTCCCTGGCAATCACATCC-3 AhERD6 LOC112741105 F 5-ACAGCATTGGGAGCAATACTGATGG-3 R 5-CAGCCTACGAAAGTGCCACTAGC-3 AhNCED1 LOC112703460 F 5-TGGAAGGAAGACACAGTTCGCATAC-3 R 5-CTTCGCCGCTGGACAGATCAAC-3 Ahactin LOC112787680 F 5-AAGCTGGCTTACATTGCCCT-3 R 5-TGACCTGTCCATCAGGCAAC-3 genes-13-01830-t002_Table 2 Table 2 Sequencing statistics. Sample Clean Reads Clean Bases GC Content %...”

NCU06138 quinate permease from Neurospora crassa OR74A
29% identity, 79% coverage

• Correlating sugar transporter expression and activities to identify transporters for an orphan sugar substrate
  Tamayo, Applied microbiology and biotechnology 2024
  • “...transporters from cluster 1 (like XYT-1, FRT-1, HGT-2, NCU04537, HGT-1, QaY, NCU06358, GLT-1, NCU06384, and NCU06138) could be potential candidates, but likely also only by contributing with unspecific side activities. Lactose uptake assays of transporter candidates Following the previous global analyses of the sugar transportome of...”
• Independent metabolism of oligosaccharides is the keystone of synchronous utilization of cellulose and hemicellulose in Myceliophthora
  Liu, PNAS nexus 2024
  • “...xylose transporter Mycth_96047, with a high identity with the xylose and glucose transporter encoded by NCU06138 in N. crassa ( 40 ), showed a high expression level under xylose, xylobiose, and xylan conditions, while it was strongly inhibited by glucose (Fig. 4 C). Additionally, the expression...”
• The transcription factor PDR-1 is a multi-functional regulator and key component of pectin deconstruction and catabolism in Neurospora crassa
  Thieme, Biotechnology for biofuels 2017
  • “...(NCU04130), the glycerol-3-phosphate O -acyltransferase chol - 6 (NCU05985), the quinate permease mfs - 19 (NCU06138), the endo-1,4--xylanase gh11 - 2 (NCU07225), the fumarylacetoacetate hydrolase fah - 2 (NCU07506), the mitochondrial triosephosphate isomerase emp - 19 (NCU10106), a glyoxalase (NCU11253), and four hypothetical proteins (NCU01700, NCU01871,...”
  • “...2 1 C13 NCU05037 put . lra4 4 C1 NCU05985 chol - 6 1 C1 NCU06138 mfs - 19 1 C13 NCU07225 gh11 - 2 1 C13 NCU07506 fah - 2 3 C1 NCU08475 Hypothetical protein 2 C1 NCU09033 pdr - 1 5 C1 NCU09034 put....”
• Direct target network of the Neurospora crassa plant cell wall deconstruction regulators CLR-1, CLR-2, and XLR-1
  Craig, mBio 2015
  • “...1 Acetyl xylan esterase NCU05159 ce5 - 2 Acetyl xylan esterase NCU05350 Major facilitator transporter NCU06138 xy-31 Xylose transporter NCU06143 gh115-1 Putative glucuronidase NCU06490 Hypothetical protein NCU07225 a gh11-2 Endo-1,4--xylanase NCU07510 Hypothetical protein NCU08114 a cdt-2 Cellodextrin/xylodextrin transporter NCU08189 gh10-2 Endo-1,4--xylanase NCU08384 xyr-1 Xylose reductase NCU09652...”
• Transcriptional comparison of the filamentous fungus Neurospora crassa growing on three major monosaccharides D-glucose, D-xylose and L-arabinose
  Li, Biotechnology for biofuels 2014
  • “...1045.02 NCU00809 MFS monosaccharide transporter 7.07 314.73 6.64 NCU01132 MFS monosaccharide transporter 0.46 280.94 0.87 NCU06138 Quinate permease 0.74 213.95 75.43 NCU05897 L-fucose permease 1.10 179.47 315.45 NCU05853 MFS sugar transporter 2.36 149.95 5.65 NCU04963 High-affinity glucose transporter 4.91 128.69 402.90 NCU04537 Monosaccharide transporter 1.06 3.35...”
  • “...well-characterized so far, although limited analysis has been performed on five of them; NCU04963 and NCU06138 have the capability to transport both xylose and glucose, whereas very weak xylose transportation activity was detected in a recombinant yeast strain harboring NCU02188, NCU04537 or NCU09287 [ 9 ]....”
• Deciphering transcriptional regulatory mechanisms associated with hemicellulose degradation in Neurospora crassa
  Sun, Eukaryotic cell 2012
  • “...(NCU00988, NCU01132, NCU02188, NCU02238, NCU02582, NCU05853, NCU06138, NCU06305, NCU06358, NCU08114, and NCU09027). In addition, 6 pentose-phosphate pathway...”
  • “...NCU09652, -xylosidase, gh43-5), and two transporter genes (NCU06138 and NCU08114). Other genes encode proteins with a potential role in hemicellulose...”
• Systems analysis of plant cell wall degradation by the model filamentous fungus Neurospora crassa
  Tian, Proceedings of the National Academy of Sciences of the United States of America 2009
  • “...(NCU00801, NCU00988, NCU01231, NCU04963, NCU05519, NCU05853, NCU05897, NCU06138, NCU08114, and NCU10021) and 23 putative or hypothetical proteins. Of the 117...”

TC 2.A.1.1.35 / Q7BEC4 The major glucose (or 2-deoxyglucose) uptake transporter, GlcP from Streptomyces lividans (see paper)
SCO5578 sugar transporter from Streptomyces coelicolor A3(2)
SCO7153 sugar transporter from Streptomyces coelicolor A3(2)
30% identity, 92% coverage

• substrates: glucose
• Comparative genomics of transport proteins in developmental bacteria: Myxococcus xanthus and Streptomyces coelicolor
  Getsin, BMC microbiology 2013
  • “...adaptation channel that influences sporulation and secondary metabolite production. GlcP1/2; Sco7153; Sco5578 [ 103 ] Q7BEC4 2.A.1.1.35 MFS major glucose uptake porters (two identical sequences at the AA level, and having a single substitution on the NT level). MdrA; Sco4007 [ 104 ] Q9ADP8 2.A.1.36.4 Putative...”
• Disentangling the genetic basis of rhizosphere microbiome assembly in tomato
  Oyserman, Nature communications 2022
  • “...B2R_17968) as well as a glucose permease (B2R_32780) with 91,5% amino acid identity to glcP1 SCO5578 of Streptomyces coelicolor A3(2) 56 . Other genes putatively involved in root exudate catabolism were also found in the ASV5 MAG, such as sarcosine oxidase ( soxBAG , B2R_20550-20551, and...”
• Comparative Proteomic Analysis of Transcriptional and Regulatory Proteins Abundances in S. lividans and S. coelicolor Suggests a Link between Various Stresses and Antibiotic Production
  Clara, International journal of molecular sciences 2022
  • “...of proteins playing a role in C up-take and assimilation such as the glucose permease (SCO5578) (Figure 16B of [ 9 ]) and all glycolytic enzymes (Figure 2 of [ 9 ]) in SC compared to SL . Similarly, proteins of the Pho regulon involved in...”
• Draft genome sequence of Actinotignum schaalii DSM 15541T: Genetic insights into the lifestyle, cell fitness and virulence
  Yassin, PloS one 2017
  • “...sugar porters which display 32% and 41% - 44% identities with the glucose transporter GlcP (SCO5578) from Streptomyces coelicolor A3 [ 2 ] and (sll0771) from Synechocystis sp. PCC 6803, respectively. The gene ( G444DRAFT_01316 ), which is annotated as minor myo -inositol:H+ symporter (IolF), clustered...”
• Transcriptomic analysis of a classical model of carbon catabolite regulation in Streptomyces coelicolor
  Romero-Rodríguez, BMC microbiology 2016
  • “...in a single step (Fig. 3a ). In the Glc/Agar comparison, the genes glcP1 ( SCO5578 ), and glcP2 ( SCO7153 ) showed the highest stimulation exerted by glucose (20-fold increase, and ranked number 1 and 2, respectively) (Fig. 4a ). The transcriptional regulation of glcP...”
• Functional analysis of the GlcP promoter in Streptomyces peucetius var. caesius
  Romero, Applied biochemistry and biotechnology 2015 (PubMed)
  • “...In Streptomyces coelicolor, this protein is encoded by sco5578. However, there is little information about the physiology of the GlcP promoter in Streptomyces....”
  • “...analysis of the sp7066 promoter (ortholog of sco5578) from Streptomyces peucetius var. caesius. Hydrophobicity and cellular location analysis of the putative...”
• Comparative genomics of transport proteins in developmental bacteria: Myxococcus xanthus and Streptomyces coelicolor
  Getsin, BMC microbiology 2013
  • “...Q9KYV5 1.A.22.1.10 MscL, osmotic adaptation channel that influences sporulation and secondary metabolite production. GlcP1/2; Sco7153; Sco5578 [ 103 ] Q7BEC4 2.A.1.1.35 MFS major glucose uptake porters (two identical sequences at the AA level, and having a single substitution on the NT level). MdrA; Sco4007 [ 104...”
• Transcriptomic analysis of a classical model of carbon catabolite regulation in Streptomyces coelicolor
  Romero-Rodríguez, BMC microbiology 2016
  • “...3a ). In the Glc/Agar comparison, the genes glcP1 ( SCO5578 ), and glcP2 ( SCO7153 ) showed the highest stimulation exerted by glucose (20-fold increase, and ranked number 1 and 2, respectively) (Fig. 4a ). The transcriptional regulation of glcP was dependent on the presence...”
• Comparative genomics of transport proteins in developmental bacteria: Myxococcus xanthus and Streptomyces coelicolor
  Getsin, BMC microbiology 2013
  • “...] Q9KYV5 1.A.22.1.10 MscL, osmotic adaptation channel that influences sporulation and secondary metabolite production. GlcP1/2; Sco7153; Sco5578 [ 103 ] Q7BEC4 2.A.1.1.35 MFS major glucose uptake porters (two identical sequences at the AA level, and having a single substitution on the NT level). MdrA; Sco4007 [...”

XylE / b4031 D-xylose:H⁺ symporter from Escherichia coli K-12 substr. MG1655 (see 7 papers)
xylE / P0AGF4 D-xylose:H⁺ symporter from Escherichia coli (strain K12) (see 8 papers)
XYLE_ECOLI / P0AGF4 D-xylose-proton symporter; D-xylose transporter from Escherichia coli (strain K12) (see paper)
TC 2.A.1.1.3 / P0AGF4 Xylose (xylopyranose):H+ symporter of 491 aas and 12 TMSs from Escherichia coli (see 7 papers)
xylE D-xylose-proton symporter from Escherichia coli K12 (see 7 papers)
NP_418455 D-xylose:H(+) symporter from Escherichia coli str. K-12 substr. MG1655
b4031 D-xylose transporter from Escherichia coli str. K-12 substr. MG1655
EcolC_3998 sugar transporter from Escherichia coli C str. ATCC 8739
29% identity, 91% coverage

• function: Uptake of D-xylose across the boundary membrane with the concomitant transport of protons into the cell (symport system). Glucose is not transported, but can compete for xylose binding sites and can inhibit xylose transport (in vitro).
  catalytic activity: D-xylose(in) + H(+)(in) = D-xylose(out) + H(+)(out) (RHEA:28959)
• substrates: H+, Xylose
  tcdb comment: Also transports and binds D-glucose and 6-bromo-6-deoxy-D-glucose. The 3-d structure is known in three conformers, outward occluded, inward occluded and inward open (Sun et al. 2012: Quistgaard et al. 2013). Most of the sugar-binding residues are conserved with the human Glut-1, 2, 3 and 4 homologues. The coalescence of intramolecular tunnels and cavities has been postulated to account for facilitated diffusion of sugars Quistgaard et al. 2013). Most of the sugar-binding residues are conserved with the human Glut-1, 2, 3 and 4 homologues. The coalescence of intramolecular tunnels and cavities has been postulated to account for facilitated diffusion of sugars (Cunningham and Naftalin 2014)
• Utilization of AlphaFold2 to Predict MFS Protein Conformations after Selective Mutation
  Xiao, International journal of molecular sciences 2022
  • “...from Prediction and Experiment To date, several structures of MFS proteins (UniProt ID: P0AA76, P0AEY8, P0AGF4, P02920, Q6MLJ0, and Q9LT15) have been found in both the outward- and inward-opening conformations [ 9 , 10 , 11 , 12 , 30 , 31 , 32 , 33...”
  • “...6E9O) for P0AA76, 1.01 (inward, PDB ID: 4QIQ) and 0.42 (outward, PDB ID: 4GBY) for P0AGF4, 1.12 (inward, PDB ID: 1PV6) and 0.56 (outward, PDB ID: 5GXB) for P02920, 0.71 (inward, PDB ID: 5AYO) and 0.83 (outward, PDB ID: 5AYM) for Q6MLJ0, 0.88 (inward, PDB ID:...”
• Evolutionary balance between foldability and functionality of a glucose transporter
  Choi, Nature chemical biology 2022
  • “...sapiens Solute carrier family 2 facilitated glucose transporter member 3 (P11169), Escherichia coli D-xylose-proton symporter (P0AGF4), Plasmodium falciparum Hexose transporter 1 (O97467), Staphylococcus epidermidis Glucose transporter (A0A0H2VG78) and Arabidopsis thaliana Sugar transport protein 10 (Q9LT15). The PDB accession number for structures for these reference proteins are...”
  • “...4ZWC, 4ZW9, 4GBZ, 6RW3, 4LDS and 6H7D). Also, The following UniProt IDs were used (P11169, P0AGF4, O97467, A0A0H2VG78 and Q9LT15). Code availability A program, written in LabView, to control the magnetic tweezers apparatus has been deposited in Github ( https://github.com/tyyoonlab/Science_aaw8208 ) and is available at Zenodo...”
• Contribution of Stenotrophomonas maltophilia MfsC transporter to protection against diamide and the regulation of its expression by the diamide responsive repressor DitR
  Boonyakanog, PloS one 2022
  • “...LacY (P02920), LmrP (Q48658), MdfA (P0AEY8), MdtG (P25744), MhpT (P77589), NorA (P0A0J7), TetA (P02981), XylE (P0AGF4), YicM (J7R7Q1). mfsC mutant is susceptible to diamide To evaluate the physiological function of mfsB and mfsC in S . maltophilia , the mfsB and mfsC mutants were constructed and...”
• Structural comparison of GLUT1 to GLUT3 reveal transport regulation mechanism in sugar porter family.
  Custódio, Life science alliance 2021
  • “...), rGLUT5 (UniProt P43427 ), bGLUT5 (UniProt P58353 ), atSTP10 (UniProt Q9LT15 ), XylE (UniProt P0AGF4 ), and GlcPse (UniProt A0A0H2VG78 ). Conserved residues are highlighted with gray-scale. Alpha helices as found in GLUT1 are represented above the sequence as colored tubes. Residues highlighted in blue...”
  • “...of the GLUT1 bacterial homolog. Sequence alignment between GLUT3 (UniProt P11169 ) and XylE (UniProt P0AGF4 ) of the C-domain A motif and the C-domain SP motif. Conserved residues are highlighted in bold. The residues belonging to the A motif and the SP motif are colored...”
• Proton-solute coupling mechanism of the maltose transporter from Saccharomyces cerevisiae
  Henderson, Scientific reports 2017
  • “...46 . Transporter sequences were found with the following UniProt accession numbers: Mal11 (P54038), XylE (P0AGF4), LacY (P02920), MelB (P02921), GLUT1 (P11166), GLUT3 (P11169). Mal11 structural modeling De novo structure prediction using evolutionary co-variation of residue pairs was performed with the EVfold server 16 , 17...”
• A Numbering System for MFS Transporter Proteins.
  Lee, Frontiers in molecular biosciences 2016
  • “...Into cell Arabidopsis thaliana NarU NNP P37758 Nitrate/nitrite symport Into cell E. coli XylE SP P0AGF4 Xylose/H + symport Into cell E. coli MelB Glycoside-pentoside-hexuronide: cation symporter P30878 Melibose/Na + symport Into cell Salmonella typhimurium The cluster containing each protein sequence in UniRef50 was downloaded and...”
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...list of homologues are as follows with Uniprot accession number in parentheses: Escherichia coli XylE (P0AGF4); Lactobacillus brevis D -xylose/H + symporter XylT (O52733); Escherichia coli galactose permease GalP (P0AEP1); Escherichia coli arabinose permease AraE (P0AE24); Bacillus subtilis myo-inositol/H + transporter IolT (O34718); Arabidopsis thaliana inositol/H...”
• Reptation-induced coalescence of tunnels and cavities in Escherichia Coli XylE transporter conformers accounts for facilitated diffusion
  Cunningham, The Journal of membrane biology 2014
  • “...conformer structures3a, 3b, 4a, 4b and 4c, the chains were restructured using the UniProt sequence P0AGF4 (XylE_ECOLI) in SwissModel Automatic Modelling Mode at http://swissmodel.expasy.org . These newer structures were superimposable on the originals and did not alter any of the docking positions or assigned affinities of...”
• More
• Hydrogen-deuterium exchange mass spectrometry captures distinct dynamics upon substrate and inhibitor binding to a transporter.
  Jia, Nature communications 2020
  • GeneRIF: Hydrogen-deuterium exchange mass spectrometry captures distinct dynamics upon substrate and inhibitor binding to a transporter.
• Molecular determinants for the thermodynamic and functional divergence of uniporter GLUT1 and proton symporter XylE.
  Ke, PLoS computational biology 2017
  • GeneRIF: The models and subsequent experimental validation suggest that multiple residue substitutions are required to produce the thermodynamic and functional distinction between XylE and GLUT1. Despite the lack of simulation studies with substrates, these computational and biochemical characterizations provide unprecedented insight into the mechanistic difference between proton symporters and uniporters.
• Affinity and path of binding xylopyranose unto E. coli xylose permease.
  Wambo, Biochemical and biophysical research communications 2017
  • GeneRIF: Molecular dynamics (MD) study of an all-atom model system to elucidate the atomistic details and the free-energy landscape along the path of binding a xylopyranose from the extracellular space to the inside of the transporter protein XylE. From the MD simulations, the Gibbs free energy of binding was found to be -4.4kcal/mol in agreement with the experimental value of -4.7kcal/mol.
• pH Regulation of Electrogenic Sugar/H+ Symport in MFS Sugar Permeases.
  Bazzone, PloS one 2016
  • GeneRIF: studies suggest that a single carboxyl group in LacY (Glu325) may be the only side chain directly involved in H+ translocation and a carboxyl side chain with similar properties has been identified in FucP (Asp46) and XylE (Asp27), the present results imply that the pK of this residue is switched during H+/sugar symport in all three symporters.
• Conserved movement of TMS11 between occluded conformations of LacY and XylE of the major facilitator superfamily suggests a similar hinge-like mechanism.
  Västermark, Proteins 2015
  • GeneRIF: Studied conformational states and homology of LacY and XylE.
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE.
  Wisedchaisri, Nature communications 2014
  • GeneRIF: The movement of XylE is described that facilitates sugar translocation across a lipid membrane and identify the likely candidate proton-coupling residues as the conserved Asp27 and Arg133.
• Reptation-induced coalescence of tunnels and cavities in Escherichia Coli XylE transporter conformers accounts for facilitated diffusion.
  Cunningham, The Journal of membrane biology 2014
  • GeneRIF: This current model helps to unify the apparently opposing concepts of alternate access and multisite models of ligand transport.
• High-level intracellular expression of heterologous proteins in Brevibacillus choshinensis SP3 under the control of a xylose inducible promoter
  D'Urzo, Microbial cell factories 2013
  • “...the Brevibacillus brevis NBRC 100599 genome. The BLAST search using the E. coli XylE (GenBank: NP_418455) as input could only identify an alpha-ketoglutarate permease (YP_002770906) with low sequence identity with E. coli XylE (20% identity) and B. megaterium XylT (18,5% identity). The BLAST search using E....”
• More
• About the dark corners in the gene function space of Escherichia coli remaining without illumination by scientific literature
  Tantoso, Biology direct 2023
  • “...( arsR /GF_510), b3531 ( bcsZ /GF_9943), b3717 ( cbrC /GF_3491), b4011 ( yjaA /GF_20677), b4031 ( xylE /GF_10135), b4348 ( hsdS /GF_3705), and b4351 ( mrr /GF_10255). Similarly, 32 intensively studied GFs from the softcore genome do not contain an E. coli K-12 MG1655 homologue:...”
• Generation and Characterization of Acid Tolerant Fibrobacter succinogenes S85
  Wu, Scientific reports 2017
  • “...(b3685) 3 2230314 Fisuc_1804 xylE sugar transporter 205 C T 217 220 96.14 Ala69Thr JW3991 (b4031) 4 2399135 Fisuc_1945 rlmM ( ygdE ) DNA alkylation repair + 331 A G 199 199 94.12 Thr111Ala JW2777 (b2806) 5 2561445 Fisuc_2074 mscL Large conductance mechanosensitive channel protein. Critical...”
• Combined, functional genomic-biochemical approach to intermediary metabolism: interaction of acivicin, a glutamine amidotransferase inhibitor, with Escherichia coli K-12
  Smulski, Journal of bacteriology 2001
  • “...b0998 b3519 b1421 b1610 b3453 b1183 b3495 b1521 b0422 b4031 b2605 b3073 b3103 b3877 b0058 b0105 b0119 b0163 b0233 b0286 b0288 Fold induction 2.1 4.7 4.3 2.8...”
• A novel point mutation in RpoB improves osmotolerance and succinic acid production in Escherichia coli
  Xiao, BMC biotechnology 2017
  • “...(EcolC_1645, EcolC_1646, and EcolC_1647), mannose PTS (ManY: EcolC_1814 and ManZ: EcolC_1813), D-xylose proton symporter XylE (EcolC_3998), and the melibiose-sodium co-transport system (EcolC_3907) were decreased 2- to 5- fold in Suc-T110 when compared to the corresponding levels in RpoBD645Y. These data demonstrated that repression effects on sugar...”

P54723 Putative metabolite transport protein YfiG from Bacillus subtilis (strain 168)
28% identity, 95% coverage

• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...439 451 P09830 P45598 P37021 P21906 P15729 U29579 X86780 P09098 P31578 P54723 U66480 P46333 P42417 P37514 SP SP SP SP SP GB GB SP SP SP GB SP SP SP Ar...”

4gbyA / P0AGF4 The structure of the mfs (major facilitator superfamily) proton:xylose symporter xyle bound to d-xylose (see paper)
29% identity, 91% coverage

• Ligand: beta-d-xylopyranose (4gbyA)

ETAE_2966 sugar transporter from Edwardsiella tarda EIB202
26% identity, 95% coverage

• Coordinate regulation of carbohydrate metabolism and virulence by PtsH in pathogen Edwardsiella piscicida
  Mao, Applied microbiology and biotechnology 2022
  • “...have been evolved for fermentation of these PTS sugars. Indeed, E. piscicida encodes ETAE_1144 and ETAE_2966 for a galactose permease (GalP) and a glucose kinase (Glk), respectively, that may support its growth in glucose and other hexoses in the absence of cognate PTS as in E....”

PPYC1_19055 sugar porter family MFS transporter from Paenibacillus polymyxa
29% identity, 90% coverage

• Transcriptome Profiles Reveal the Growth-Promoting Mechanisms of Paenibacillus polymyxa YC0136 on Tobacco (Nicotiana tabacum L.)
  Liu, Frontiers in microbiology 2020
  • “...interaction. Four genes involved in ABC transport were down-regulated by 1.542.60 times. Two genes ( PPYC1_19055 and PPYC1_22815 ) involved in MFS transfer were down-regulated by 1.67 times and 4.69 times, respectively. These benefit the growth of strain YC0136 by absorbing nutrients. TABLE 5 Effects of...”
  • “...transporter permease PPYC1_02025 1.54 Amino acid ABC transporter substrate-binding protein PPYC1_01710 1.58 ABC transporter permease PPYC1_19055 1.67 araE MFS transporter PPYC1_00995 1.72 PTS sugar transporter subunit IIB PPYC1_13110 2.04 znuB Metal ABC transporter permease PPYC1_13115 2.6 znuC Metal ABC transporter ATP-binding protein PPYC1_00515 3.13 smr QacE...”

IOLT_BACSU / O34718 Major myo-inositol transporter IolT from Bacillus subtilis (strain 168) (see paper)
TC 2.A.1.1.26 / O34718 Major myoinositol:H+ symporter, IolT from Bacillus subtilis (see 3 papers)
29% identity, 93% coverage

• function: Major myo-inositol uptake transporter.
• substrates: myo-inositol
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...permease GalP (P0AEP1); Escherichia coli arabinose permease AraE (P0AE24); Bacillus subtilis myo-inositol/H + transporter IolT (O34718); Arabidopsis thaliana inositol/H + symporter INT1 (Q8VZR6); Arabidopsis thaliana hexose/H + symporter STP1 (P23586); Parachlorella kessleri hexose/H + symporter HUP1 (P15686); Homo sapiens facilitated glucose transporter GLUT12 (Q8TD20); Homo sapiens...”

LOC105679181 facilitated trehalose transporter Tret1 from Linepithema humile
32% identity, 82% coverage

• Social environment affects the transcriptomic response to bacteria in ant queens
  Viljakainen, Ecology and evolution 2018
  • “...Uncharacterized LOC105676242 (LOC105676242) 2.63 3.00E23 6.44E20 LOC105670707 Uncharacterized transmembrane protein DDB_G0289901like (LOC105670707) 2.17 5.77E45 6.19E41 LOC105679181 Facilitated trehalose transporter Tret1 (LOC105679181) 1.87 1.22E09 6.87E07 LOC105672089 Lipid storage droplets surfacebinding protein 2like (LOC105672089) 1.87 1.94E09 1.04E06 LOC105671866 Serine protease gdlike (LOC105671866) 1.70 4.82E11 3.44E08 LOC105672123 Uncharacterized LOC105672123...”

HGT12 potential sugar sensor or transporter from Candida albicans (see 4 papers)
XP_720385 Hgt12p from Candida albicans SC5314
Q8J2J7 Putative glucose sensor protein from Candida albicans
30% identity, 85% coverage

• CharProtDB CGD description: glucose, fructose, mannose transporter; major facilitator superfamily; role in macrophage-induced hyphal growth; detected at germ tube plasma membrane by mass spectrometry; Snf3p-induced; 12 probable transmembrane segments
• The Candida albicans gene HGT12 (orf19.7094) encodes a hexose transporter.
  Luo, FEMS immunology and medical microbiology 2007 (PubMed)
  • GeneRIF: The HGT12 gene encodes a fructose, glucose, and mannose transporter.
  • GeneRIF: The C. albicans gene HGT12, which is specifically expressed during macrophage infection, encodes a protein that transports fructose, glucose and mannose.
• Do mitochondria use efflux pumps to protect their ribosomes from antibiotics?
  Islam, Microbiology (Reading, England) 2023
  • “...ABC O42765, 7.8E^6 A0A1P8ATY7, 6.7E^12 Q8WW24, 1.4E^14 [ 79, 112 ] HXT13, NCU01633 Q1K4S3 MFS Q8J2J7, 2.1E^85 P23586, 1.2E^52 P11168, 2.6E^48 [ 79 ] NCU04809 Q756M6 MFS T2AWG3, 0.0014 Q8GYF4, 1.4E^24 B3KT41, 0.0022 [ 79 ] NCU09551 Q7S2B0 MFS G1UAY0, 2.3E^6 Q56ZZ7, 2.3E^7 Q8NBP5, 8.4E^9 [...”

AFUA_7G00950, Afu7g00950 MFS monosaccharide transporter, putative from Aspergillus fumigatus Af293
32% identity, 81% coverage

• Broad-spectrum antimicrobial activities of a food fermentate of <i>Aspergillus oryzae</i>
  Choi, Microbiology spectrum 2024
  • “...AFUA_1G04780 pxa1 Putative peroxisomal ABC transporter 2.38 AFUA_1G14330 abcC Putative ABC transporter, Azole transporter 2.35 AFUA_7G00950 Putative MFS monosaccharide transporter 2.25 AFUA_2G12500 Putative MFS multidrug transporter 2.25 AFUA_3G01840 Putative MFS transporter 2.25 AFUA_6G03060 Putative MFS monosaccharide transporter 2.14 AFUA_4G03750 Putative phthalate transporter 2.05 AFUA_6G03720 Putative MFS...”
• Induction of <i>Aspergillus fumigatus</i> zinc cluster transcription factor OdrA/Mdu2 provides combined cellular responses for oxidative stress protection and multiple antifungal drug resistance
  Sasse, mBio 2023
  • “...Up +753 (inside the 2nd intron) Afu4g14380 Up Up 247 Afu5g06070 mdr1 Up Up 1668 Afu7g00950 Up Up 1038 Afu8g01860 Up Up 181 Afu8g06430 Up Down Not found Afu2g02690 atrR/odrD Up 811 Afu3g01910 Down Up 152 Afu3g01910 Down Up +1447 (inside the seventh exon) Afu5g14740 fleA...”
• A Novel Zn2-Cys6 Transcription Factor AtrR Plays a Key Role in an Azole Resistance Mechanism of Aspergillus fumigatus by Co-regulating cyp51A and cdr1B Expressions
  Hagiwara, PLoS pathogens 2017
  • “...6.46 9.32 hypothetical protein Afu5g06070 mdr1 11.9 65.9 108.2 5.53 9.09 ABC multidrug transporter Mdr1 Afu7g00950 10.3 60.5 77.7 5.87 7.54 MFS monosaccharide transporter, putative Afu8g01860 30.6 163.0 218.8 5.32 7.15 hypothetical protein DOWN in atrR and srbA Afu1g03150 erg24A 25.5 1.1 2.5 0.04 0.10 c-14...”
• Temperature during conidiation affects stress tolerance, pigmentation, and trypacidin accumulation in the conidia of the airborne pathogen Aspergillus fumigatus
  Hagiwara, PloS one 2017
  • “...3.1 13.69 0.99 conserved hypothetical protein AFUA_8G04920 201.1 14.9 8.2 13.49 0.55 LEA domain protein AFUA_7G00950 285.3 22.1 26.7 12.89 1.21 MFS monosaccharide transporter, putative AFUA_5G00145 101.3 8.1 2.5 12.48 0.31 conserved hypothetical protein AFUA_4G00730 3748.9 308.7 61.8 12.14 0.20 HHE domain protein AFUA_3G14750 31.9 2.6...”
• Conservation of nucleosome positions in duplicated and orthologous gene pairs
  Nishida, TheScientificWorldJournal 2012
  • “...AFUA_5G13130 0.490832735 YDR055W AFUA_4G06820 0.482973721 YLR104W AFUA_5G04040 0.47610876 YIL129C AFUA_6G11010 0.473123981 YDR300C AFUA_2G07570 0.469287567 YOL156W AFUA_7G00950 0.46726022 YGL201C AFUA_5G10890 0.462753539 YKR086W AFUA_1G03820 0.461061937 YPL157W AFUA_6G08610 0.460257721 YIL046W AFUA_2G14110 0.45798838 YGL048C AFUA_4G04660 0.457664607 YHR216W AFUA_2G03610 0.456902272 YDR424C AFUA_1G04850 0.455530713 YPR141C AFUA_2G14280 0.452133975 YLR427W AFUA_1G07150 0.444534443 YHL004W AFUA_1G06570...”
  • “...AFUA_2G02850 0.284622252 YLR429W AFUA_2G14270 0.283845667 YDR397C AFUA_3G02340 0.283499213 YBR260C AFUA_3G06280 0.282196097 YCR087C-A AFUA_7G04700 0.281322207 YMR011W AFUA_7G00950 0.280854319 YOL148C AFUA_1G16580 0.274850272 YDR379W AFUA_1G12680 0.273041289 YJL151C AFUA_5G10590 0.272979399 YML020W AFUA_5G12090 0.266526854 YGR082W AFUA_6G11380 0.265129767 YJR113C AFUA_1G04280 0.262789584 YIL031W AFUA_5G03200 0.256820972 YDR432W AFUA_3G10100 0.255963453 YDR359C AFUA_4G07560 0.255317292 YDR233C AFUA_6G13670...”

B6TZY0 Solute carrier family 2, facilitated glucose transporter member 8 from Zea mays
29% identity, 90% coverage

• Key factors identified by proteomic analysis in maize (Zea mays L.) seedlings' response to long-term exposure to different phosphate levels
  Sun, Proteome science 2018
  • “...0.83 K7TK04 Carbohydrate transporter/ sugar porter 4.655 0.61 A0A1D6EP34 Sugar transport protein 14 1.4 0.78 B6TZY0 Facilitated glucose transporter member 8 1.38 0.77 ABC transporters A0A1D6NEN5 ABC transporter B family member 9 1.29 1.72 0.79 B4FBM3 ABC transporter G family member 6 1.31 0.82 Other transporters...”
  • “...carbohydrate transporters, C0PHL2 (monosaccharide transporter1), K7TK04 (carbohydrate transporter/sugar porter), A0A1D6EP34 (sugar transport protein 14) and B6TZY0 (facilitated glucose transporter member 8), were increased under LP condition but suppressed under HP condition in the leaves or roots, indicating that these transporters regulated sugar metabolism when maize seedlings...”

LOC100801076 sugar transporter ERD6-like 6 from Glycine max
29% identity, 91% coverage

• Genome-Wide Association Study of Root and Shoot Related Traits in Spring Soybean (Glycine max L.) at Seedling Stages Using SLAF-Seq
  Mandozai, Frontiers in plant science 2021
  • “...(LOC100803004), misc_RNA Glyma.16G138900 RDW/SDW 29621947 1464 Chr16 48 PREDICTED: Glycine max sugar transporter ERD6-like 6-like (LOC100801076), mRNA Glyma.16G208400 RDW/SDW 36801463 11522 Chr16 8 PREDICTED: Glycine max chloride channel protein CLC-c-like (LOC100809070), transcript variant X8, mRNA Glyma.09G153400 SL 37605828 3135 Chr09 41 Phaseolus vulgaris hypothetical protein (PHAVU_009G205900g)...”

A0A3R7W609 Hexose transporter 1 from Peronospora effusa
31% identity, 76% coverage

• A comparison of transporter gene expression in three species of Peronospora plant pathogens during host infection
  Johnson, PloS one 2023
  • “...91] no gene name found RQM16367 493 [ Pb-Pt 80] PBEL_00785 595 [ Pe-Pb 82] A0A3R7W609 262 [ Pt-Pe 92] Ptab2_015719 RMX67545 549 [ Pb-Pt 93] PBEL_05539 551 [ Pe-Pb 95] A0A3M6VKN9 551 [ Pt-Pe 97] Ptab2_017636 Others RMX64359 (CTL) 479 [ Pb-Pt 86] PBEL_00807 480...”
  • “...the RQM16367 genes. GLUTs or glucose transporters should contain 12 membrane-spanning helices [ 73 ]. A0A3R7W609 was predicted to contain 11, 14, and 11 transmembrane helices whereas PBEL_00785 was predicted to contain 11, 12, and 9 transmembrane helices according to the transmembrane helix predictor programs HMMTOP...”

Q93YP9 Sugar transporter ERD6-like 4 from Arabidopsis thaliana
AT1G19450 integral membrane protein, putative / sugar transporter family protein from Arabidopsis thaliana
30% identity, 91% coverage

• Identification of MAMP-Responsive Plasma Membrane-Associated Proteins in Arabidopsis thaliana Following Challenge with Different LPS Chemotypes from Xanthomonas campestris
  Hussan, Pathogens (Basel, Switzerland) 2020
  • “...protein F4KEA0 Hypersensitive-induced response protein 4 Q9FHM7 Ras-related protein RABG3a Q948K8 Sugar transporter ERD6-like 4 Q93YP9 Nuclear transport factor 2 (NTF2) family protein Q9FMC7 Plasma-membrane associated cation-binding protein 1 F4JUT9 V-type proton ATPase subunit G1 O82628 Patellin-3 Q56Z59 ATPase 11 Q9LV11 Calcium-transporting ATPase 10 Q9SZR1 ABC-2...”
  • “...transporter 13 Q8LPL8 Putative ion channel POLLUX-like 1 Q8VZM7 Syntaxin-132 Q8VZU2 Sugar transporter ERD6-like 4 Q93YP9 Potassium transporter 7 Q9FY75 Calcium-transporting ATPase 8 Q9LF79 Novel plant SNARE 13 Q9LRP1 ATPase 11 Q9LV11 Alpha-soluble NSF attachment protein 2 Q9SPE6 Calcium-transporting ATPase 10 Q9SZR1 Probable aquaporin PIP2-6 Q9ZV07...”
• Transcriptome characteristics during cell wall formation of endosperm cellularization and embryo differentiation in Arabidopsis
  Li, Frontiers in plant science 2022
  • “..., SWEET11 , and SWEET15 in 3-5W were upregulated, and sucrose metabolism genes such as AT1G19450 , SFP1 , and SPS3 were also upregulated. However, their roles in seed development remain unclear. The starch and sucrose pathway was also significantly enriched using KEGG analysis in naa15...”
• Outlier analyses and genome-wide association study identify glgC and ERD6-like 4 as candidate genes for foliar water-soluble carbohydrate accumulation in Trifolium repens
  Pearson, Frontiers in plant science 2022
  • “...clover homologue of early responsive to dehydration ( ERD ) monosaccharide vacuole transporter, ERD6-like 4 (At1g19450), was physically associated with SNP 16_32428574, detected in both the WNZLL and FNZSL pools. ERD6 -like transporters are involved in energy-independent sugar efflux from the vacuole ( Wei etal., 2014...”
• Early Response to Dehydration Six-Like Transporter Family: Early Origin in Streptophytes and Evolution in Land Plants
  Slawinski, Frontiers in plant science 2021
  • “...ESL ) genes. ESL group Brassicaceae group Gene ID AtERD6-Llke x New names ESL1 B1a At1g19450 AtERD6-Like 4 ESL1.01 ESL1 B1b At1g75220 AtERD6-Like 6 ESL1.02/ERDL6 ESL2a B2 At2g48020 AtERD6-Like 7 ESL2.01/ZIF2 ESL2a B3 At3g05150 AtERD6-Like 8 ESL2.02 ESL2b B4 At5g18340 AtERD6-Like 16 ESL2.03 ESL3a B5 At1g54730...”
• Responsiveness of Early Response to Dehydration Six-Like Transporter Genes to Water Deficit in Arabidopsis thaliana Leaves
  Slawinski, Frontiers in plant science 2021
  • “...Madison, WI, USA). Quantitative PCR Analysis The expression analysis of the 17 AtESL : AtESL1.01 (At1g19450), AtESL1.02/ERDL6 (At1g75220), AtESL2.01/ZIF2 (At2g48020), AtESL2.02 (At3g5150), and AtESL2.03 (At5g18840), AtESL3.01 (At1g54730), AtESL3.02 (At4g4750), AtESL3.03 (At4g04760), AtESL3.04 (At3g20460), AtESL3.05/ESL3 (At1g08890), AtESL3.06/ESL2 (At1g08900), AtESL3.07/ESL1 (At1g08920) , AtESL3.08/ERD6 (At1g08930) , AtESL3.10 (At3g05400), AtESL3.11...”
• Dissecting the subcellular membrane proteome reveals enrichment of H+ (co-)transporters and vesicle trafficking proteins in acidic zones of Chara internodal cells
  Pertl-Obermeyer, PloS one 2018
  • “...117 at3g01280 M 34.2 transport.sugars 157 77 80 major facilitator superfamily protein 10 5 5 at1g19450 V major facilitator superfamily protein 39 19 20 at5g59250 P major facilitator superfamily protein 1 1 0 at5g64500 V oligosaccharyltransferase/magnesium transporter protein 10 6 4 at1g61790 ER plastidic glucose translocator...”
• Quantitation of Vacuolar Sugar Transporter Abundance Changes Using QconCAT Synthtetic Peptides
  Pertl-Obermeyer, Frontiers in plant science 2016
  • “...5 ). Thereby, in some cases, such as for high abundant proteins AVP1 (AT1G15690), ERDL4 (AT1G19450) and COPT5 (AT5G20650), the endogenous peptides (L) was in all cases more abundant than the spiked in standards (H) leading to large L/H ratios across conditions. In other cases, such...”
  • “...and large increases in abundance were observed also for ERDL7 (AT2G48020) and TMT2 (AT4G35300). ERDL4 (AT1G19450) and ENT1 (AT1G70330) were the only sugar transporter for which no significant change in abundance was measured under salt stress. Under drought stress, for most proteins a mild decrease in...”
• Expression profiling of tomato pre-abscission pedicels provides insights into abscission zone properties including competence to respond to abscission signals
  Nakano, BMC plant biology 2013
  • “...A_96_P144011 AW030712 AT3G63200 PLP9 (PATATIN-LIKE PROTEIN 9) 1.6 0.031 2.7 0.005 Transporter/Channel Solyc02g085170 A_96_P127407 TA56865_4081 AT1G19450 integral membrane protein, putative / sugar transporter family protein 3.8 0.014 4.1 0.016 Solyc01g103030 A_96_P114407 AK325211 AT1G59740 proton-dependent oligopeptide transport (POT) family protein 1.9 0.023 2.0 0.034 Solyc10g084950 a A_96_P231269...”
• Conserved versatile master regulators in signalling pathways in response to stress in plants
  Balderas-Hernández, AoB PLANTS 2013
  • “...AT1G07310 837242 Calcium-dependent lipid-binding domain GDU4 817013 Glutamine dumper 4 ATERDJ2A 844334 Translocation protein SEC63 AT1G19450 8838529 Sugar transporter ERD6-like 4 CNGC18 831339 Cyclic nucleotide-gated channel 18 These results indicate the importance of SNRK as a sensor and master regulator of the energetic and metabolic status...”
• More

F0UXL1 Sugar transporter protein ERD6-S from Zea mays
29% identity, 91% coverage

• Quantitative analysis of changes in the phosphoproteome of maize induced by the plant hormone salicylic acid
  Wu, Scientific reports 2015
  • “...E3UJZ2 100505456 Yellow stripe-like transporter S(11): 100.0 84.2 1.16 4.80E-01 1.23 5.50E-02 0.2 2.11E-04 LGSSAFSLR F0UXL1 100193700 Sugar transporter protein ERD6-S S(3): 100.0; S(4): 100.0 38.67 0.95 7.46E-01 1.49 1.33E-04 1.65 7.57E-05 GGAGAGEESGSDHDGVLR K7URW1 100282396 Solute carrier family facilitated glucose transporter member 8 S(9): 100.0; S(11):...”

AT1G05030 hexose transporter, putative from Arabidopsis thaliana
29% identity, 85% coverage

• Genetic association analysis in sugarcane (Saccharum spp.) for sucrose accumulation in humid environments in Colombia
  Saavedra-Díaz, BMC plant biology 2024
  • “...and monosaccharide transporters (MSTs) [ 69 ]. For early maturity, MST2, the plastidic glucose transporter At1g05030, and SUT4 were found within the LD region of the markers 1_33380771, 2_29103764, and 4_55115204, respectively (Table 5 ). At normal maturity, the candidate genes monosaccharide-sensing protein 2 MSSP2, polyol...”
  • “...maturations, close to the candidate genes MST and ERD6-like respectively. The genes MST1, MST2, GTP2, At1g05030, and PLT5, are all directly involved in the transport of monosaccharides, required compounds for various processes of plant growth, development [ 68 ], and osmotic adjustments (e.g., monosaccharide homeostasis) [...”
• The novel chloroplast glucose transporter pGlcT2 affects adaptation to extended light periods
  Valifard, The Journal of biological chemistry 2023
  • “...( 3 ). The next homolog to pGlcT is the protein encoded by the gene At1g05030 . In contrast to pGlcT, no report on the protein encoded by the gene At1g05030 , hereafter referred to as pGlcT2, is available. However, an in-depth characterization of pGlcT2 properties...”
  • “...). The structurally closest homolog to pGlcT is the putative carrier encoded by the gene At1g05030 , which we named pGlcT2 ( Fig.S1 ). The molecular architecture of pGlcT2 demonstrates that this protein is comprised of 524 amino acids and exhibits 12 predicted transmembrane domains (TM)...”
• Comparative transcriptome analysis reveals the phosphate starvation alleviation mechanism of phosphate accumulating Pseudomonas putida in Arabidopsis thaliana
  Srivastava, Scientific reports 2023
  • “...) were upregulated in both RAR and HA+RAR treatments. Genes associated with carbohydrate metabolism ( At1g05030 ), jasmonic acid LOX2 ( At3g45140 ), glutathione-s-transferase ( At5g17220 ), and ethylene biosynthesis ( At4g26200 ) showed upregulation in HA and HA+RAR treatment. However, these genes were either downregulated...”
  • “...0.907445 1.36474 AT1G21250 WAK1 0.320022 3.180495 1.194565 AT3G45140 jasmonic acid (JA) LOX2 1.612366 1.81294 1.884971 AT1G05030 Carbohydrate metabolism 0.174888 0.33848 0.290582 AT1G06730 Plastid nucleoside kinase 0.123424 0.08761 0.056039 AT1G53730 STRUBBELIG-receptor family 6 0.025972 0.15064 0.160056 AT1G12890 Transcription factor 0.27459 1.217637 0.556539 AT1G01260 Transcription factor 0.140424 0.24861...”
• Genome-Wide Identification and Expression Profiling of Monosaccharide Transporter Genes Associated with High Harvest Index Values in Rapeseed (Brassica napus L.)
  Zhang, Genes 2020
  • “...whereas the three remaining AtMST genes ( At3G05160 , At1G08890 ( AtERD6-like subfamily ), and At1G05030 ( AtpGlcT subfamily )) lacked homologs in B. napus ( Table 2 ). Detailed information about the BnMST genes is provided in Table S3 . The molecular weights (Mw) of...”
• Gene expression profiling through microarray analysis in Arabidopsis thaliana colonized by Pseudomonas putida MTCC5279, a plant growth promoting rhizobacterium
  Srivastava, Plant signaling & behavior 2012
  • “...traits such as carbohydrate metabolism (At1g05030, 5.71-fold), nucleoside transferase (At1g63730, 6.59-fold), kinases (At1g06730, 5.32-fold; At1g53730,...”
• Reduced expression of a gene encoding a Golgi localized monosaccharide transporter (OsGMST1) confers hypersensitivity to salt in rice (Oryza sativa)
  Cao, Journal of experimental botany 2011
  • “...sequence is compared with OsMST1-8, Os09g23110, OspGlcT, and OsTMT1-4 from Oryza sativa , AtSGB1, At1g67300, At1g05030, and AtpGlcT from Arabidopsis thaliana , ScRGT2 from Saccharomyces cerevisiae , HsSLC2A3 from Homo sapiens , NtpGlcT from Nicotiana tabacum, and ZmpGlcT from Zea mays . (C) OsGMST1 is a...”
  • “...shows that the putative Arabidopsis paralogues to OsGMST1 are encoded by At1g67300 , SGB1 , At1g05030 , and AtpGlcT and the proteins have 67%, 65%, 44%, and 43% identity to OsGMST1, respectively. These four MST proteins are in the pGlcT subfamily ( Buttner, 2007 ). SGB1...”
• Physical Mapping in a Triplicated Genome: Mapping the Downy Mildew Resistance Locus Pp523 in Brassica oleracea L
  Carlier, G3 (Bethesda, Md.) 2011
  • “...Not Seq PCR C5 53O21 At1g02660 NS PCR C8a 114F8 NS At1g06590 PCR C8a 19M3 At1g05030 At1g05230 Map F C5 6D7 NS At1g02270 Map F C8a 11A22 At1g06680 NS PCR C8a 89C6 At1g05577 At1g05690 PCR C5 92O1 NS At1g02990 PCR C8a 38E20 At1g06490 NS PCR C8a...”
• The Vitis vinifera sugar transporter gene family: phylogenetic overview and macroarray expression profiling
  Afoufa-Bastien, BMC plant biology 2010
  • “...putative transporters could be localized in Golgi apparatus. Finally Vv25939001 forms a third group with At1g05030. Search for cis -elements putatively involved in the transcriptional regulation of sugar transporter genes We have identified a 2 kb promoter region for each of the 29 fully sequenced genes...”

GOX1971 Galactose-proton symporter from Gluconobacter oxydans 621H
29% identity, 92% coverage

• A tunable L-arabinose-inducible expression plasmid for the acetic acid bacterium Gluconobacter oxydans
  Fricke, Applied microbiology and biotechnology 2020
  • “...identity) is annotated as a galactose-proton symporter, GOX0649 (51% identity) as a sugar-proton symporter, and GOX1971 (46% identity) also as a galactose-proton symporter. One or several of these transporters might be promiscuous and poorly take up l -arabinose as a side reaction. No data are available...”

F6HDJ1 Major facilitator superfamily (MFS) profile domain-containing protein from Vitis vinifera
29% identity, 90% coverage

• Shared and divergent pathways for flower abscission are triggered by gibberellic acid and carbon starvation in seedless Vitis vinifera L
  Domingos, BMC plant biology 2016
  • “...predicted F6HNN6 Posttranslational mod., protein turn., chap. VIT_05s0020g02170 3.99 5.73 Sugar transporter ERD6-like 16-like, predicted F6HDJ1 Carbohydrate transport and metabolism VIT_00s0561g00020 3.86 5.73 Stem-specific protein TSJT1-like D7TYY3 Other VIT_02s0033g00830 5.75 GTPase Rab11/YPT3, predicted F6I079 Intracellular traff., secretion, vesic. transp. VIT_00s0586g00030 3.91 5.80 Stem-specific protein TSJT1-like ,...”

AL01_02185 sugar porter family MFS transporter from Bombella intestini
29% identity, 97% coverage

• Whole-Genome Sequence Analysis of Bombella intestini LMG 28161T, a Novel Acetic Acid Bacterium Isolated from the Crop of a Red-Tailed Bumble Bee, Bombus lapidarius
  Li, PloS one 2016
  • “...sugar transporter (AL01_05795 and AL01_06590) or a D-galactose transporter encoded by galP (AL01_03445, AL01_03450 and AL01_02185), which both belong to the major facilitator superfamily (MFS) [ 19 , 23 ]. Phenotypic tests, using a method described previously [ 24 ], revealed that B . intestini LMG...”

PITG_12998 Major Facilitator Superfamily (MFS) from Phytophthora infestans T30-4
30% identity, 92% coverage

• Lifestyle, gene gain and loss, and transcriptional remodeling cause divergence in the transcriptomes of Phytophthora infestans and Pythium ultimum during potato tuber colonization
  Ah-Fong, BMC genomics 2017
  • “...in tubers compared to media, with half predicted to be hexose transporters (PYU1_G009043 and G009044, PITG_12998). Glycoside-pentoside-hexuronide family (GPH) This family is believed to be distantly related to the MFS group. In symport with a monovalent cation, they transport a range of carbohydrates that are mostly...”

Ot03g05590 Major facilitator superfamily domain, general substrate transporter from Ostreococcus tauri
30% identity, 94% coverage

• Microarray data can predict diurnal changes of starch content in the picoalga Ostreococcus
  Sorokina, BMC systems biology 2011
  • “...Ot01g03030 2.7.9.4 -glucan, water dikinase (GWD) SR1-A x Ot13g01510 R1 C Ot16g02370 Ot04g04170 Glucose transporter Ot03g05590 Glucose transporter Ot14g01870 Glucose transporter Ot08g01260 Maltose transporter MEX1 x Ot09g03160 Transcripts encoding starch metabolizing enzymes in O. tauri show distinctive diurnal patterns We used microarrays to obtain the expression...”

C5965_09300 sugar porter family MFS transporter from Cronobacter sakazakii
27% identity, 92% coverage

• Draft genomes of Cronobacter sakazakii strains isolated from dried spices bring unique insights into the diversity of plant-associated strains
  Jang, Standards in genomic sciences 2018
  • “...C5965_04340), xynB (a -xylosidase , locus tag C5965_04335), and xylE (a proton-sugar symporter (locus tag C5965_09300). This shares significant homology with xylE of E.coil , which is a member of the major facilitator superfamily (MFS) of transporters) possessed by E. coli and other bacteria [ 56...”

Q8LBI9 Sugar transporter ERD6-like 16 from Arabidopsis thaliana
AT5G18840 sugar transporter, putative from Arabidopsis thaliana
29% identity, 92% coverage

• Identification of internal reference genes for gene expression normalization between the two sexes in dioecious white Campion
  Zemp, PloS one 2014
  • “...ACACCCTTTGCGTTATGTGGGAGGT 143 60.4 1.88 Q9FLG1 GARX01000000 (contig_1352.1) SL_EDL16 F: GGGGCCAATTTCACTTGATGCTGGA R: TAATCCGCCTCGGATACTGGTTGGT 118 59.5 1.85 Q8LBI9 GARX01000000 (contig_13862.1) SL_METL1 F: TCCGGTGGTTGGGTTCCTCCTAAAA R:GCCGCATGCCAGTGTCAACAAAA 116 59.5 1.77 Q94AI4 GARX01000000 (contig_15898.1) SL_REF3 F: CGCCAGGCAGAGGTGTTAAACCAGA R: TAGCAGCAGTTACGAGCCCCAACA 145 60.5 1.77 no hit GARX01000000 (contig_17318.1) SL_REF4 F: AAAGCGACGATCTTAGGGCGGTTTG R: TCCCCATGTTTGGAGAGGAACTGCT 153...”
• Responsiveness of Early Response to Dehydration Six-Like Transporter Genes to Water Deficit in Arabidopsis thaliana Leaves
  Slawinski, Frontiers in plant science 2021
  • “...of the 17 AtESL : AtESL1.01 (At1g19450), AtESL1.02/ERDL6 (At1g75220), AtESL2.01/ZIF2 (At2g48020), AtESL2.02 (At3g5150), and AtESL2.03 (At5g18840), AtESL3.01 (At1g54730), AtESL3.02 (At4g4750), AtESL3.03 (At4g04760), AtESL3.04 (At3g20460), AtESL3.05/ESL3 (At1g08890), AtESL3.06/ESL2 (At1g08900), AtESL3.07/ESL1 (At1g08920) , AtESL3.08/ERD6 (At1g08930) , AtESL3.10 (At3g05400), AtESL3.11 (At3g05160), AtESL3.13/SFP1 (At5g27350), and AtESL3.14/SFP2 (At5g27360) of other vacuolar...”
• AsHSP26.8a, a creeping bentgrass small heat shock protein integrates different signaling pathways to modulate plant abiotic stress response
  Sun, BMC plant biology 2020
  • “...Carbohydrate metabolism-related proteins AT3G09020 1.37 alpha 1,4-glycosyltransferase family protein AT5G26340 1.37 sugar transport protein 13 AT5G18840 2.66 sugar transporter ERD6-like 16 AT3G49790 1.18 Carbohydrate-binding protein Nitrogen metabolism-related proteins AT1G02920 1.26 glutathione S-transferase 7/11 AT2G02930 1.48 glutathione S-transferase F3 AT5G62480 2.05 glutathione S-transferase tau 9 AT5G02780 1.78...”
• A sweet orange mutant impaired in carotenoid biosynthesis and reduced ABA levels results in altered molecular responses along peel ripening
  Romero, Scientific reports 2019
  • “...TRANSPORTER 1) 1.90 2.86 0.39 aC08002F04SK_c AT2G26910 ABCG32 (ABCG TRANSPORTER 32) 1.54 1.69 0.27 aC31803D02EF_c AT5G18840 ESL16 (PUTATIVE SUGAR TRANSPORTER 16) 0.95 2.31 1.17 Lipid biosynthetic process (GO:0008610; Level 6) aC31301D12EF_c AT2G22240 IPS2 (INOSITOL-3-PHOSPHATE SYNTHASE2) 2.24 3.66 1.15 aC31810H11EF_c AT5G49555 PDS (PHYTOENE DEHYDROGENASE) 1.88 3.02 0.88...”
• Genome-Wide Transcriptome Analysis Reveals Conserved and Distinct Molecular Mechanisms of Al Resistance in Buckwheat (Fagopyrum esculentum Moench) Leaves
  Chen, International journal of molecular sciences 2017
  • “...1.860 comp68193_c0_seq1 1.851 comp31329_c0_seq1 1.403 AT5G61520 Major facilitator superfamily protein Carbohydrate comp27968_c0_seq1 1.499 comp29178_c0_seq1 1.403 AT5G18840 Major facilitator superfamily protein Carbohydrate comp7291_c0_seq1 1.167 comp23114_c0_seq1 1.510 comp98352_c0_seq1 1.678 AT1G51340 MATE efflux family protein Citrate comp11267_c0_seq1 2.039 comp96590_c0_seq1 1.764 comp88250_c0_seq1 1.705 comp81877_c0_seq1 1.967 AT3G21090 ABCG15 Cutin comp56152_c0_seq1 2.033...”
• Phylloxera (Daktulosphaira vitifoliae Fitch) alters the carbohydrate metabolism in root galls to allowing the compatible interaction with grapevine (Vitis ssp.) roots
  Griesser, Plant science : an international journal of experimental plant biology 2015
  • “...GSVIVT01011047001 ERD6-like transporter Vverd6-like7 (at2g48020) 0.56 0.0001 n.d. n.d. n.d. TC123985 GSVIVT01017836001 ERD6-like transporter Vverd6-like16 (at5g18840) 1.36 3.39E06 1.6 1.0 0.9 TC126484 GSVIVT01022022001 ERD6-like transporter Vverd6-like8 (at3g05150) 0.77 1.23E05 n.d. n.d. n.d. TC115303 GSVIVT01010741001 Inositol transporter VvINT1 (at2g43330) 0.65 0.0004 1.0 0.7 0.8 TC113429 GSVIVT01021530001 Inositol...”
• Cytological investigations of the Arabidopsis thaliana elo1 mutant give new insights into leaf lateral growth and Elongator function
  Falcone, Annals of botany 2007
  • “...synthase (At4g02280), sucrose transporter (At1g71890), sugar transporter (At5g18840) and actin (At3g60830). The primers were designed using the Beacon designer...”
  • “...synthase (At4g02280), sucrose transporter (At1g71890) and sugar transporter (At5g18840), with a function in sucrose metabolism was analysed by qPCR in Ler and...”
• The monosaccharide transporter gene family in land plants is ancient and shows differential subfamily expression and expansion across lineages
  Johnson, BMC evolutionary biology 2006
  • “...representation in the database and best match homologs in early lineages, three ( AtSTP7 , At5g18840 , and AtINT2 ) have microarray expression profiles consistent with broad expression and two ( At3g51490 and AtPLT4 ) appear to have limited expression, including expression in pollen. The broadly...”
• Phosphoinositide 5-phosphate and phosphoinositide 4-phosphate trigger distinct specific responses of Arabidopsis genes: genome-wide expression analyses
  Alvarez-Venegas, Plant signaling & behavior 2006
  • “...249955_at -2.02 1.53 sugar transporter, putative AT5G18840 253667_at -1.79 1.59 peroxidase, putative two-component responsive regulator/ response regulator 5...”

DV527_RS02780 sugar porter family MFS transporter from Staphylococcus saprophyticus
31% identity, 82% coverage

• Transcriptome Analysis of Halotolerant Staphylococcus saprophyticus Isolated from Korean Fermented Shrimp
  Jo, Foods (Basel, Switzerland) 2022
  • “...DV527_RS01180 betA Choline dehydrogenase 1.36 6.02 4.66 DV527_RS01175 betB Betainealdehyde dehydrogenase 5.74 4.69 MFS transporter DV527_RS02780 Sugar porter family MFS transporter 0.48 2.56 3.03 DV527_RS12535 Sugar porter family MFS transporter 1.01 2.03 3.03 DV527_RS02165 MFS transporter 1.45 4.96 3.51 DV527_RS11830 MFS transporter 0.25 0.70 0.95 DV527_RS02855...”

XP_002313809 polyol transporter 5 from Populus trichocarpa
29% identity, 83% coverage

• Characterization of Erysiphe necator-responsive genes in Chinese Wild Vitis quinquangularis
  Gao, International journal of molecular sciences 2012
  • “...transporter family protein Populus trichocarpa XP_002308160 7 10 56 UN164 509 Polyol transporter Populus trichocarpa XP_002313809 4 10 68 UN223 269 Nitrate transporter Malus hupehensis ACN72639 2 10 34 UN221 329 Solute symporter family protein A. thaliana NP_199351 5 10 42 Transcription (4) UN014 517 Transcription...”

LOC18046355 sugar transporter ERD6-like 7 from Citrus x clementina
29% identity, 90% coverage

• Transcriptome analysis of the pulp of citrus fruitlets suggests that domestication enhanced growth processes and reduced chemical defenses increasing palatability
  Perez-Roman, Frontiers in plant science 2022
  • “...calcium-transporting ATPase (LOC18042874), a potassium transporter (LOC18043735), and two different sugar transporters ERD6-like (LOC18040371 and LOC18046355), which are vacuolar H + /glucose symporters involved in the export of glucose to cytosol ( Klemens et al., 2014 ). Downregulated genes were a boron transporter (LOC18036378), a nitrate...”

H6S33_000450 uncharacterized protein from Morchella sextelata
28% identity, 86% coverage

• Comparative Transcriptome Profiles of the Response of Mycelia of the Genus Morchella to Temperature Stress: An Examination of Potential Resistance Mechanisms
  Yue, Journal of fungi (Basel, Switzerland) 2024
  • “...module II were related to the catabolic process of glucose with putative MFS monosaccharide transporter (H6S33_000450), alpha/beta-hydrolase (H6S33_000895), glycoside hydrolase/deacetylase (H6S33_005331, H6S33_012593), and glyceraldehyde 3-phosphate dehydrogenase (H6S33_011274). Moreover, two cytochrome-related genes, H6S33_008973 and H6S33_007572, were identified. These results indicated that high culture temperatures accelerated the oxidative...”
  • “...carbon and nitrogen sources to meet metabolic requirements [ 45 ]. The MFS monosaccharide transporter H6S33_000450 was identified among the module I genes, which is consistent with the findings of previous reports showing that major facilitator superfamily (MFS) proteins are involved mainly in energy metabolism [...”

FTN_0687 galactose-proton symporter, major facilitator superfamily (MFS) transport protein from Francisella tularensis subsp. novicida U112
27% identity, 92% coverage

• Structural and functional analysis of the Francisella lysine decarboxylase as a key actor in oxidative stress resistance
  Felix, Scientific reports 2021
  • “...A 0.926959218 6.24086E07 FTN_1697 Galactose mutarotase 0.901042767 0.008192095 FTN_1148 Glycoprotease family protein 0.816650922 0.005012835 galP1 FTN_0687 Major facilitator superfamily galactose-proton symporter 0.746905316 5.94864E05 FTN_1459 Short chain dehydrogenase 0.723695755 0.001285646 FTN_1254 Hypothetical protein 0.716291799 0.00237079 FTN_1266 ABC transporter membrane protein 0.66256701 0.001562237 FTN_0923 Hypothetical protein 0.654493997 0.002785307...”
• Molecular complexity orchestrates modulation of phagosome biogenesis and escape to the cytosol of macrophages by Francisella tularensis
  Asare, Environmental microbiology 2010
  • “...tnfn1_pw060323p06q164 FTN_0624 serine permease 2 2 * tnfn1_pw060418p01q161 FTN_0636 glpT glycerol-3-phosphate transporter 7 7 tnfn1_pw060419p04q142 FTN_0687 galP1 galactose-proton symporter, major facilitator superfamily (MFS) transport protein 2 3 * tnfn1_pw060510p04q158 FTN_0687 galP1 galactose-proton symporter, major facilitator superfamily (MFS) transport protein 2 2 * tnfn1_pw060328p06q132 FTN_0728 predicted Co/Zn/Cd...”
• Exploitation of host cell biology and evasion of immunity by francisella tularensis
  Asare, Frontiers in microbiology 2010
  • “...nicotinamide ribonucleoside (NR) uptake permease (PnuC) family protein FTN_0624 Serine permease FTN_0636 glpT Glycerol-3-phosphate transporter FTN_0687 galP1 Galactose-proton symporter, major facilitator superfamily (MFS) transport protein FTN_0728 Predicted Co/Zn/Cd cation transporter FTN_0739 potG ATP-binding cassette putrescine uptake system, ATP-binding protein FTN_0799 emrE Putative membrane transporter of cations...”
• Molecular bases of proliferation of Francisella tularensis in arthropod vectors
  Asare, Environmental microbiology 2010
  • “...tnfn1_pw060323p06q164 FTN_0624 serine permease 2 2 * tnfn1_pw060418p01q161 FTN_0636 glpT glycerol-3-phosphate transporter 7 7 tnfn1_pw060419p04q142 FTN_0687 galP1 galactose-proton symporter, major facilitator superfamily (MFS) transport protein 2 3 * tnfn1_pw060510p04q158 FTN_0687 galP1 galactose-proton symporter, major facilitator superfamily (MFS) transport protein 2 2 * tnfn1_pw060328p06q132 FTN_0728 predicted Co/Zn/Cd...”

SCLAV_4529 sugar porter family MFS transporter from Streptomyces clavuligerus
32% identity, 92% coverage

• Transcriptomic analysis of Streptomyces clavuligerus ΔccaR::tsr: effects of the cephamycin C-clavulanic acid cluster regulator CcaR on global regulation
  Alvarez-Álvarez, Microbial biotechnology 2014
  • “...01 0.94 <1E 06 SCLAV_5509 gap2 Glyceraldehyde-3-phosphate dehydrogenase 2 2.61 <1E 06 1.75 <1E 06 SCLAV_4529 glcP Glucose permease 1.79 <1E 06 0.60 7.97E 02 SCLAV_p0975 Ribulose-phosphate 3-epimerase 1.25 <1E 06 1.36 <1E 06 Nitrogen metabolism SCLAV_4534 amtB Ammonium transporter 4.10 <1E 06 5.04 <1E 06...”

Q6CCJ1 YALI0C08943p from Yarrowia lipolytica (strain CLIB 122 / E 150)
31% identity, 93% coverage

• Functional survey for heterologous sugar transport proteins, using Saccharomyces cerevisiae as a host
  Young, Applied and environmental microbiology 2011
  • “...calculated using a solution algo- 3313 Q6C2L7 Q6CCU6 Q6CCJ1 YALI0C06424 YALI0C08943 A3GHF2 XUT7 YALI0F06776 A3M0N4 XUT6 Q6CFJ6 A3LY79 XUT5 Q6CG30 A3M0B9 XUT4...”

CIMG_08310 sugar porter (SP) family MFS transporter from Coccidioides immitis RS
29% identity, 79% coverage

• Gene expression in human fungal pathogen Coccidioides immitis changes as arthroconidia differentiate into spherules and mature
  Viriyakosol, BMC microbiology 2013
  • “...well as efflux [ 33 ]. Two highly upregulated genes are sugar transporters (CIMG_03001 and CIMG_08310). A nicotinic acid transporter (CIMG_06071) and a sialate transporter (CIMG_03956) were also upregulated. The nicotinic acid transporter is presumably involved in NAD metabolism [ 34 ]; we have been unable...”

CAC1339 Possible sugar-proton symporter from Clostridium acetobutylicum ATCC 824
CA_C1339 sugar porter family MFS transporter from Clostridium acetobutylicum ATCC 824
30% identity, 90% coverage

• Biochemical routes for uptake and conversion of xylose by microorganisms
  Zhao, Biotechnology for biofuels 2020
  • “...transporter are not detected in the chromosome of C. acetobutylicum , and only several genes (CAC1339, CAC1345, CAC1530, CAC3422 and CAC3451) encoding sugar-proton symporters are identified [ 20 , 21 ]. These above symporter genes are distributed in the different parts of the chromosome, and located...”
• Development of an inducible transposon system for efficient random mutagenesis in Clostridium acetobutylicum
  Zhang, FEMS microbiology letters 2016
  • “...Minton ( 2015 ) pMTL82254-Pcac1339 Clostridium modular plasmid with catP reporter expressed by promoter of cac1339, pBP1 (Gram + origin), ColE1+ tra (Gram origin), Em r This study pMTL82254-Pcac1344 Clostridium modular plasmid with catP reporter expressed by promoter of cac1344, pBP1 (Gram + origin), ColE1+ tra...”
  • “...pBP1 with pCB102 replicon This study pMTL-YG3 Derived from pMTL-YG0 by introducing the promoter of cac1339 to express the transposase Himar1 C9 This study a hsdR , host-specific restriction deficient; mcr , methylcytosine-specific restriction abolished; recA1 , homologous recombination abolished; endA1 , endonucleases abolished; Spe r...”
• Sugar uptake by the solventogenic clostridia
  Mitchell, World journal of microbiology & biotechnology 2016
  • “...in both C. acetobutylicum and C. beijerinckii. Three symporters in C. acetobutylicum , encoded by cac1339 , cac1345 and cac3451 , have been shown to be induced under conditions in which xylose is being used as a substrate (Grimmler et al. 2010 ; Servinsky et al....”
  • “...al. 2015 ). In the case of arabinose, a gene cluster in C. acetobutylicum ( cac1339 cac1349 ) has been shown to be under control of a putative AraR regulator, and some of the genes in this region including cac1339 were found to be induced by...”
• Ribulokinase and transcriptional regulation of arabinose metabolism in Clostridium acetobutylicum
  Zhang, Journal of bacteriology 2012
  • “...araA (CAC1342 and CAC1346), araD (CAC1341), and araE (CAC1339 and CAC1345) genes in the araR-inactivated mutant were elevated more than 17-fold compared to that...”
  • “...poorly explored family (Y. Zhang, personal communication). The CAC1339 to -1349 gene cluster in the C. acetobutylicum genome includes genes for two AraA...”
• Pleiotropic functions of catabolite control protein CcpA in Butanol-producing Clostridium acetobutylicum
  Ren, BMC genomics 2012
  • “...cluster contains most of the genes necessary for l -arabinose uptake and metabolism, including araE1/araE2 (CAC1339 and CAC1345, encoding l -arabinose-proton symporter), araA1/araA2 (CAC1342 and CAC1346, encoding l -arabinose isomerase), araK (CAC1344, encoding ribulokinase) [ 44 ], araD (CAC1341, encoding l -ribulose-5-phosphate 4-epimerase), epi (CAC1349, encoding...”
• Confirmation and elimination of xylose metabolism bottlenecks in glucose phosphoenolpyruvate-dependent phosphotransferase system-deficient Clostridium acetobutylicum for simultaneous utilization of glucose, xylose, and arabinose
  Xiao, Applied and environmental microbiology 2011
  • “...isomerase; xylB (cac2612), xylulokinase; araE (cac1339), L-arabinose transporter; araA (cac1342, cac1346), L-arabinose isomerase; araB (cac1344?),...”
  • “...Only putative D-xylose and undefined sugar symporters (cac1339, cac3422, and cac1345) were observed. In general, symporters exhibit much lower affinity for...”
• Alleviation of Carbon Catabolite Repression through araR and xylR Inactivation in Clostridium acetobutylicum DSM 792
  Delarouzée, Applied and environmental microbiology 2023 (secret)
• Arabinose-Induced Catabolite Repression as a Mechanism for Pentose Hierarchy Control in Clostridium acetobutylicum ATCC 824
  Servinsky, mSystems 2018
  • “...( 14 , 19 ). Rodionov et al. identified AraR (CA_C1340) binding sites upstream of CA_C1339, CA_C1340, the predicted CA_C1341-CA_C1342 operon, CA_C1343, the predicted CA_C1344-CA_C1349 operon, and the predicted CA_C1529-CA_C1530 operon ( 28 ). The binding of AraR to these sites was confirmed by EMSA, and...”
  • “...on arabinose than in xylose or glucose cultures ( 9 ). One notable exception is CA_C1339, a proposed xylose importer gene, which has a unique transcription profile with high mRNA levels in cells grown on xylose, moderate levels for those on arabinose, and extremely low levels...”

XYLT_LEVBR / O52733 D-xylose transporter; D-xylose-proton symporter from Levilactobacillus brevis (Lactobacillus brevis) (see paper)
TC 2.A.1.1.41 / O52733 The D-xylose:H+ symporter, XylT (Km=220 μM; inhibited competitively by 6-deoxyglucose (Ki=220 μM), but not by other sugars tested) from Lactobacillus brevis
29% identity, 91% coverage

• function: Uptake of D-xylose across the boundary membrane with the concomitant transport of protons into the cell (symport system). Transport is driven by the proton motive force generated by either malolactic fermentation or by the metabolism of D-glucose.
• substrates: Xylose
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE.
  Wisedchaisri, Nature communications 2014
  • “...accession number in parentheses: Escherichia coli XylE (P0AGF4); Lactobacillus brevis D -xylose/H + symporter XylT (O52733); Escherichia coli galactose permease GalP (P0AEP1); Escherichia coli arabinose permease AraE (P0AE24); Bacillus subtilis myo-inositol/H + transporter IolT (O34718); Arabidopsis thaliana inositol/H + symporter INT1 (Q8VZR6); Arabidopsis thaliana hexose/H +...”

LOC100852699 polyol transporter 5 from Vitis vinifera
27% identity, 91% coverage

• Coastal Wild Grapevine Accession (Vitis vinifera L. ssp. sylvestris) Shows Distinct Late and Early Transcriptome Changes under Salt Stress in Comparison to Commercial Rootstock Richter 110
  Carrasco, Plants (Basel, Switzerland) 2022
  • “...and LOC100252631), three osmotin/thaumatins (LOC100242737, LOC100246096, and LOC100259841), a vicilin-like (LOC100256465), and a polyol transporter (LOC100852699) ( Figure 6 and Supplementary Data S4 ). Aquaporins are transmembrane channels with passive water-transport activity; in plant cells, they are present in both the cellular membrane and vacuolar membrane....”

Tanf_07060 D-xylose transporter XylE from Tannerella forsythia
29% identity, 90% coverage

• Inositol-phosphodihydroceramides in the periodontal pathogen Tannerella forsythia: Structural analysis and incorporation of exogenous myo-inositol
  Megson, Biochimica et biophysica acta 2015
  • “...against the proteome of T. forsythia ATCC 43037. Only one significant hit could be found, Tanf_07060, classified as a major facilitator superfamily (MFS) transporter of the sugar porter (SP) family. However, this gene lies within a possible operon for the uptake and use of xylose. Therefore,...”

Cbei_4545 sugar transporter from Clostridium beijerincki NCIMB 8052
27% identity, 94% coverage

• Transcriptomic characterization of recombinant <i>Clostridium beijerinckii</i> NCIMB 8052 expressing methylglyoxal synthase and glyoxal reductase from <i>Clostridium pasteurianum</i> ATCC 6013
  Kumar, Applied and environmental microbiology 2024
  • “...Gene ID Gene symbol Protein ID Protein function Fold change (Log 2 ) P value Cbei_4545 ABR36654.1 Sugar transporter/general substrate transporter 4.98 0.0000 Cbei_3873 ABR35987.1 PTS system mannose/fructose/sorbose family transporter subunit IIB 4.78 0.007564654 Cbei_4560 ABR36669.1 PTS system fructose subfamily IIA component 4.36 0.000679059 Cbei_4638 ABR36746.1...”

Lreu_0479 sugar porter family MFS transporter from Limosilactobacillus reuteri subsp. reuteri
Lreu_0479 sugar transporter from Lactobacillus reuteri DSM 20016
30% identity, 98% coverage

• Functional identification in Lactobacillus reuteri of a PocR-like transcription factor regulating glycerol utilization and vitamin B12 synthesis
  Santos, Microbial cell factories 2011
  • “...Putative cobalt-transporting ATPase d. 1.85 0.00 gi|148543665 Lreu_0430 Putative cobalt-transporting ATPase d. 1.76 0.00 gi|148543666 Lreu_0479 Arabinose-proton symporter 1.67 0.00 gi|148543714 Lreu_0631 Pyruvate dehydrogenase alpha subunit (EC 1.2.4.1) 0.88 0.02 gi|148543863 Lreu_0632 Pyruvate dehydrogenase beta subunit (EC 1.2.4.1) 0.86 0.04 gi|148543864 Lreu_0633 Dihydrolipoamide acetyltransferase component of...”

AT2G18480 mannitol transporter, putative from Arabidopsis thaliana
30% identity, 87% coverage

• Root-based inorganic carbon uptake increases the growth of Arabidopsis thaliana and changes transporter expression and nitrogen and sulfur metabolism
  Gamarra, Frontiers in plant science 2024
  • “...0.49 31.46 Carnitine transporter AT1G73220 Organic cation/carnitine transporter 1 OCT1 -1.11 0.46 51.96 Polyol transporter AT2G18480 Probable polyol transporter 3 PLT3 -1.18 0.44 137.94 Boron transporter AT1G74810 Putative boron transporter 5 BOR5 -1.55 0.34 10.90 Ascorbate transporter AT1G49960 Nucleobase-ascorbate transporter 4 NAT4 -1.65 0.32 229.76 Aminoacid...”
• Genomic methylation patterns in pre-meiotic gynoecia of wild-type and RdDM mutants of Arabidopsis
  Ortiz-Vasquez, Frontiers in plant science 2023
  • “...Supplementary Table S8 ). Four are hypomethylated in ago4 but hypermethylated in ago9 and rdr6 (At2g18480; At3g02610; At4g15440; and At5g17600; encoding for the probable polyol transporter PLT3, the acyl-acyl carrier protein desaturase AAD2, the cytochrome CYP74B2, and the Arabidopsis toxic yeast protein ATL52, respectively; Supplementary Table...”
• Transcriptome analysis of Pará rubber tree (H. brasiliensis) seedlings under ethylene stimulation
  Nakano, BMC plant biology 2021
  • “...AT1G77210 AtSTP14 3.04 3.23 2.81 H+-Symporter family for polyols and monosaccharides (plasma membrane) 0 bx046600 AT2G18480 AtPLT3 6.25 6.26 6.34 Putative monosaccharide transporter family (ERD-group=induced by early dehydration) 0 bx021636 AT2G48020 Major facilitator superfamily protein 2.01 2.93 2.45 0 bx037209 AT2G48020 Major facilitator superfamily protein 2.01...”
• Heat-Induced Oxidation of the Nuclei and Cytosol
  Babbar, Frontiers in plant science 2020
  • “...(AT3G46900), RPF6 (AT1G63130), BGLU28 (AT2G44460), VSP1 (AT5G24780), HP-hypothetical protein (AT2G19970), SBT4.1 (AT5G59120), JAL23 (AT2G39330), PLT3 (AT2G18480), TAS1B (AT1G50055), HSP22 (AT4G10250), HSFA2 (AT2G26150), HSP17.6C (AT1G53540), HSP17.6A (AT5G12030), HSFA7B (AT3G63350), HSP23.6 (AT4G25200), HSP17.6A (AT5G12030), NAD6 (ATMG00270), HSP17.4A (AT3G46230), HSP17.6 (AT5G12020), natRNA (AT3G07365), CALS12 (AT5G03550), HSP21 (AT4G27670), RLP1 (AT1G07390),...”
• Natural genetic variation in Arabidopsis for responsiveness to plant growth-promoting rhizobacteria
  Wintermans, Plant molecular biology 2016
  • “...the transport of purine and derivatives such as cytokinins across the plasma membrane SFW 5.22 At2G18480 Major facilitator superfamily protein Carbohydrate transmembrane transporter activity; plant structure SFW 5.58 At2G20570 Golden2-like 1 (GLK1) Transcription factor activity; regulates expression of the photosynthetic apparatus (with GLK2) SFW 5.46 At4G09730...”
  • “...Rubisco biogenesis-related DEAD box protein RH39 (Nishimura et al. 2010 ), carbohydrate transmembrane transport protein At2G18480, Nitrilase-like protein 1 (NLP1) (Kusano et al. 2008 ), and the photorespiration-related mitochondrial serine hydroxymethyltransferase SHM2 (Engel et al. 2011 ; Voll et al. 2006 ) (Table 1 ). Overall,...”
• Global Transcriptome Analysis Reveals Distinct Aluminum-Tolerance Pathways in the Al-Accumulating Species Hydrangea macrophylla and Marker Identification
  Chen, PloS one 2015
  • “...3.4 At1g75840 ATROP4 (rho-like GTP-binding protein 4) c220714.graph_c0 4.1 At2g23150 ATNRAMP3(manganese ion transporter) c140176.graph_c0 3.9 At2g18480 PLT3 (probable polyol transporter 3) c211750.graph_c1 5.9 c204065.graph_c0 6.6 c203825.graph_c0 6.2 At3g05400 SUGTL5 (sugar transporter ERD6-like 12) c207258.graph_c2 3.5 c155119.graph_c1 3.3 At3g12750 ZIP (zinc transporter 1) c183609.graph_c0 4.2 c217013.graph_c0 3.8...”
• The Vitis vinifera sugar transporter gene family: phylogenetic overview and macroarray expression profiling
  Afoufa-Bastien, BMC plant biology 2010
  • “...(AtINT2), At2g35740 (AtINT3), At4g16480 (AtINT4), At3g03090 (AtVGT1), At5g17010 (AtVGT2), At5g59250 (AtVGT3), At2g16120 (AtPMT1), At2g16130 (AtPMT2), At2g18480 (AtPMT3), At2g20780 (AtPMT4), At3g18830 (AtPMT5), At4g36670 (AtPMT6); for Vitis ones see Additional file 1 . Vitis ORFs names were simplified, Vv indicating GSVIVT000. Vitis vinifera putative Polyol/Monosaccharide Transporters (VvPMT; subfamily...”

TC 2.A.1.1.42 / Q8G3X1 The D-glucose:H+ symporter, GlcP (glucose uptake is inhibited by 2-deoxyglucose, mannose and galactose) from Bifidobacterium longum (see paper)
BL1631 D-Glucose-proton symporter from Bifidobacterium longum NCC2705
30% identity, 86% coverage

• substrates: D-glucose, H+
• The Pleiotropic Effects of Carbohydrate-Mediated Growth Rate Modifications in Bifidobacterium longum NCC 2705
  Duboux, Microorganisms 2023
  • “...(bifid-shunt). It revealed that growth on glucose induced the expression of glucose import systems ( Bl1631 (MFS) and BL1633 (part of PTS)), enzymes involved in glucose-6-phosphate conversion ( BL1631 ; 6PGL ), pyruvate and acetate formation ( BL0707 ( pgk ) and BL1124 ( aldH )),...”
  • “...malE )), channeling of galactose and glucose into the bifid-shunt ( BL1630 ( pgm ), BL1631 ( pgm ), BL0279 ( pgi )). Notably, two of the MalR1 target loci were induced when the strain was grown on glucose, i.e., genes involved in metabolization of amylose...”
• Preferential sugar utilization by bifidobacterial species
  Murakami, Microbiome research reports 2023
  • “...we investigated the homolog distribution of the glcP , ptsG , and licT gene cluster (BL1631, BL1632, and BL1633 in B. longum NCC2705), which are reportedly involved in the preferential utilization of lactose in NCC2705 [ 20 ] . Of the 40 isolates, 12 strains had...”
• Carbohydrate-controlled serine protease inhibitor (serpin) production in Bifidobacterium longum subsp. longum
  Duboux, Scientific reports 2021
  • “...glucose in the environment. In B. longum NCC 2705, the glucose/mannose transporter protein (encoded by BL1631; glcP) is involved in galactose import 8 . This protein was demonstrated to have the highest specificity for glucose followed by mannose and galactose 23 , which could explain why...”
  • “...to have a higher affinity to the Major Facilitator Superfamily (MFS) transport protein glcP protein (BL1631). As well, presence of glucose in the cell has been previously shown to inhibit the production of the ATP-binding cassette transporters (ABC) encoded by the genes located in the operon...”
• Lactose-over-glucose preference in Bifidobacterium longum NCC2705: glcP, encoding a glucose transporter, is subject to lactose repression
  Parche, Journal of bacteriology 2006
  • “...Gene Accession number Primer pair BL1631 ( glcP) AAN25419 BL1631-F1, GCAACGCCTTCAAAGTGCTT BL1631-R1, TGCACCTGGGTCTGATCCA AAN25418 BL1630-F1, TCAAGCGTGTGCCCTACGA...”
  • “...repressed by lactose and probably induced by glucose. BL1631 expression is mediated by lactose. Comparative analysis of gene expression using genome-wide DNA...”

CTRG_06249 hypothetical protein from Candida tropicalis MYA-3404
30% identity, 84% coverage

• Unveiling superior phenol detoxification and degradation ability in <i>Candida tropicalis</i> SHC-03: a comparative study with <i>Saccharomyces cerevisiae</i> BY4742
  Li, Frontiers in microbiology 2024
  • “...MFS transporter 1.40 CTRG_06081 MFS transporter 6.29 CTRG_05012 MFS transporter 2.11 CTRG_06100 MFS transporter 4.76 CTRG_06249 MFS transporter 1.65 CTRG_00968 MFS transporter 1.86 CTRG_05562 MFS transporter 6.56 CTRG_01806 MFS transporter 2.06 CTRG_04977 MFS transporter 1.38 CTRG_06212 peptide transporter PTR2 5.43 CTRG_01125 choline transport protein 2.42 CTRG_04615...”

SNF3 glucose sensor from Candida albicans (see paper)
XP_723173 glucose sensor from Candida albicans SC5314
28% identity, 59% coverage

• CharProtDB CGD description: glucose and galactose sensor; fermentation, filamentation, virulence roles; in 20-member C. albicans glucose transporter family, extended C terminus; high-glucose repressed; induced in macrophage, repressed in biofilm
• Comparative genomics of the white-rot fungi, Phanerochaete carnosa and P. chrysosporium, to elucidate the genetic basis of the distinct wood types they colonize
  Suzuki, BMC genomics 2012
  • “...of corresponding sequences are: AnHyp1 (XP_682442.1), AnHyp2 (XP_660070.1), AnMstA (CAC80843), Ao_BAE58341.1 (BAE58341.1), CaHgt1 (CAA76406), CaHgt4 (XP_723173), CaHgt11 (XP_719597), CiGxf1 (AJ937350), CiGxs1 (AJ875406), GzHyp1 (EAA74528), HpGcr1 (AAR88143), KlHgt1 (XP_451484), KlRag1 (XP_453656), KlRag4 (CAA75114), Lb_EDR07962 (EDR07962), NcHyp1 (XP_328858), NcHxt3 (CAD21508), NcNCU00801(EAA34565.1), NcNCU08114 (XP_963873.1), NcRco3 (CAE76420), Pp_115604 (EED81359), Ps_ABN65648.2...”
• Catabolite repression of Aox in Pichia pastoris is dependent on hexose transporter PpHxt1 and pexophagy
  Zhang, Applied and environmental microbiology 2010
  • “...for HpGcr1, CAI44932 for CiGxs1, EU476007 for HpHxs1, XP_723173 for CaHgt4, CAA75114 for KlRag4, NP_010087 for ScSnf3, and NP_010143 for ScRgt2. cerevisiae and...”
• Identification of hexose transporter-like sensor HXS1 and functional hexose transporter HXT1 in the methylotrophic yeast Hansenula polymorpha
  Stasyk, Eukaryotic cell 2008
  • “...are as follows: AnMSTA, AAL89822; CaHgt4, XP_723173; CaHgt12, XP_888662; CiGxs1, CAI44932; CiGxf1, CAI77652; HpGcr1, AAR88143; HpHxt1, EU476006; HpHxs1,...”

SS1G_07132 hypothetical protein from Sclerotinia sclerotiorum 1980 UF-70
28% identity, 80% coverage

• Changes in the Sclerotinia sclerotiorum transcriptome during infection of Brassica napus
  Seifbarghi, BMC genomics 2017
  • “...- - - 7.2 10.6 SS1G_08467 MFS sugar transporter - - - - 2.9 2.5 SS1G_07132 MFS sugar transporter - - - - 8.3 6.3 SS1G_01759 MFS sugar transporter - - - - - 2.8 SS1G_14316 MFS sugar transporter - - - - - 6.1 SS1G_06402...”

LOC101247786 probable polyol transporter 6 from Solanum lycopersicum
29% identity, 97% coverage

• Antioxidant activity and comparative RNA-seq analysis support mitigating effects of an algae-based biostimulant on drought stress in tomato plants
  Cerruti, Physiologia plantarum 2024
  • “...there are also different genes strictly related to stress tolerance, like probable polyol transporter 6 (LOC101247786) whose overexpression increases the entry of polyols into the cell, increasing drought stress tolerance (Petrozza et al., 2014 ) and putative glycinerich cell wall structural protein 1 (LOC101265562) that increases...”

AT2G20780 mannitol transporter, putative from Arabidopsis thaliana
29% identity, 88% coverage

• Transcriptomic and proteomic approach to identify differentially expressed genes and proteins in Arabidopsis thaliana mutants lacking chloroplastic 1 and cytosolic FBPases reveals several levels of metabolic regulation
  Soto-Suárez, BMC plant biology 2016
  • “...family proteins (At3g05155, At4g04760, At3g19940) were up-regulated in cyfbp rosettes, and only a mannitol transporter (At2g20780) was down-regulated. Finally, a carbohydrate transmembrane transporter (At1g08930) and two UDP-galactose transporters (At4g23010 and At3g59360) were up-regulated in cyfbp roots, whereas two monosaccharide transporters were down-regulated in this organ (At1g34580...”
• Identification of miRNAs and Their Targets in the Liverwort Marchantia polymorpha by Integrating RNA-Seq and Degradome Analyses
  Lin, Plant & cell physiology 2016
  • “...LW9386 NA AT1G48380 HYPOCOTYL 7 LW28862 NA EFJ23241 NA LW798 NA AT2G27290 NA LW8919 NA AT2G20780 Carbohydrate transmembrane transporter activity LW3390 NA AT1G55350 DEFECTIVE KERNEL 1 LW2282 NA AT4G38160 PIGMENT DEFECTIVE 191 LW3379 NA AT1G75200 Radical SAM domain-containing protein LW769 NA AT5G47390 MYB HYPOCOTYL ELONGATION-RELATED Mpo-miR11698.1...”
• A meta-analysis reveals the commonalities and differences in Arabidopsis thaliana response to different viral pathogens
  Rodrigo, PloS one 2012
  • “...performed in Col-0. Only seven genes ( At1g14970 , At1g50250 , At1g78170 , At2g16700 , At2g20780 , At3g45860 , and At4g12520 ) had expression levels that were significantly affected by the host ecotype (Mann-Whitney test). However, if a correction for multiple testing (FDR procedure; adjusted P...”
• The Vitis vinifera sugar transporter gene family: phylogenetic overview and macroarray expression profiling
  Afoufa-Bastien, BMC plant biology 2010
  • “...(AtINT3), At4g16480 (AtINT4), At3g03090 (AtVGT1), At5g17010 (AtVGT2), At5g59250 (AtVGT3), At2g16120 (AtPMT1), At2g16130 (AtPMT2), At2g18480 (AtPMT3), At2g20780 (AtPMT4), At3g18830 (AtPMT5), At4g36670 (AtPMT6); for Vitis ones see Additional file 1 . Vitis ORFs names were simplified, Vv indicating GSVIVT000. Vitis vinifera putative Polyol/Monosaccharide Transporters (VvPMT; subfamily III) Five...”

PDIP_03090 MFS monosaccharide transporter, putative from Penicillium digitatum
27% identity, 85% coverage

• Transcriptome Analysis of mfs2-Defective Penicillium digitatum Mutant to Reveal Importance of Pdmfs2 in Developing Fungal Prochloraz Resistance
  Cuan, Microorganisms 2024
  • “...1.04 / MFS23 (PDIP_36610) / / 2.72 2.50 MFS24 (PDIP_40610) / / 1.77 / MFS25 (PDIP_03090) 1.71 1.07 1.38 / MFS26 (PDIP_64100) / / 1.53 1.42 MFS27 (PDIP_55370) / / 1.22 1.47 MFS28 (PDIP_70440) / / 1.26 / MFS29 (PDIP_67290) / / 1.13 / MFS30 (PDIP_09580)...”

Afu1g03530 MFS sugar transporter, putative from Aspergillus fumigatus Af293
29% identity, 84% coverage

• Transcriptome and secretome analysis of Aspergillus fumigatus in the presence of sugarcane bagasse
  de, BMC genomics 2018
  • “...Database (AspGD; http://www.aspgd.org ) [ 32 ]. Three orthologous genes encoding possible putative xylose transporters (Afu1g03530, Afu4g14610, and Afu6g14442) and five related to cellobiose transporters (Afu3g01670, Afu6g14500, Afu6g14560, Afu7g05100, and Afu8g04480) have been identified in N. crassa , A. oryzae, A. niger , and A. nidulans...”
  • “...xylose with an increase in up to 25-fold. On the other hand, the expression of Afu1g03530 increased to 250-, 180-, 25-, 60-, 200-, and 5-fold after 3, 6, 12, 18, 24, and 48h, respectively (Fig. 4b ). These results lead us to speculate that both genes...”

CA_C1345 sugar porter family MFS transporter from Clostridium acetobutylicum ATCC 824
CAC1345 D-xylose-proton symporter from Clostridium acetobutylicum ATCC 824
31% identity, 89% coverage

• Alleviation of Carbon Catabolite Repression through araR and xylR Inactivation in Clostridium acetobutylicum DSM 792
  Delarouzée, Applied and environmental microbiology 2023 (secret)
• Harnessing lignocellulosic biomass for butanol production through clostridia for sustainable waste management: recent advances and perspectives
  Palaniswamy, Frontiers in bioengineering and biotechnology 2023
  • “...inactivating araR ( Clocel_1253 ) and xylR ( Clocel_0594 ) along with overexpressing xylT ( CA_C1345 ). The resulting strain could produce 4.96g/L of butanol from alkali-extracted corn cobs ( Wen et al., 2020 ). The bacterium C. tyrobutyricum ATCC 25755 was engineered by overexpressing the...”
• Production of butanol from lignocellulosic biomass: recent advances, challenges, and prospects
  Guo, RSC advances 2022
  • “...carbon flux from butyrate and acetate toward butyryl-CoA. Xylose metabolism was engineered by overexpressing xylT (CA_C1345) and inactivating xylR (Clocel_0594) and araR (Clocel_1253), and final production of butanol was increased to 4.96 g L 1 directly from alkali-extracted corncobs. 161 4.3 A strategy for engineering physiological...”
• Metabolic Engineering of Clostridium cellulovorans to Improve Butanol Production by Consolidated Bioprocessing
  Wen, ACS synthetic biology 2020 (PubMed)
  • “...engineering was implemented by inactivating xylR (Clocel_0594) and araR (Clocel_1253), as well as overexpressing xylT (CA_C1345), which is expected to supply additional carbon and reducing power for CoA and butanol synthesis pathways. The final engineered strain produced 4.96 g/L of n-butanol from alkali extracted corn cobs...”
• Valorisation of xylose to renewable fuels and chemicals, an essential step in augmenting the commercial viability of lignocellulosic biorefineries
  Narisetty, Sustainable energy & fuels 2021
  • “...Along with XI, XK ( XylB , CAC2612), a xylose proton symporter ( XylT , CAC1345), and a transcriptional regulator ( XylR , CAC3673) were also sequenced and characterized. The C. acetobutylicum strains are well known to utilize a broad range of monosaccharides, disaccharides, starches, and...”
• Biochemical routes for uptake and conversion of xylose by microorganisms
  Zhao, Biotechnology for biofuels 2020
  • “...are not detected in the chromosome of C. acetobutylicum , and only several genes (CAC1339, CAC1345, CAC1530, CAC3422 and CAC3451) encoding sugar-proton symporters are identified [ 20 , 21 ]. These above symporter genes are distributed in the different parts of the chromosome, and located relatively...”
• Sugar uptake by the solventogenic clostridia
  Mitchell, World journal of microbiology & biotechnology 2016
  • “...C. acetobutylicum and C. beijerinckii. Three symporters in C. acetobutylicum , encoded by cac1339 , cac1345 and cac3451 , have been shown to be induced under conditions in which xylose is being used as a substrate (Grimmler et al. 2010 ; Servinsky et al. 2010 )....”
  • “...al. 2012 ). It is therefore possible that the putative transporters encoded by cac1339 and cac1345 ( xylT ) are involved in uptake of both pentose sugars, but this has yet to be examined. Furthermore, expression of genes cac1529 and cac1530 encoding, respectively, a putative arabinosidase...”
• Bacterial xylanases: biology to biotechnology
  Chakdar, 3 Biotech 2016
  • “..., the xylose utilization pathway also includes a xylulokinase (XylB, CAC2612), a xylose proton-symporter (XylT, CAC1345), and a transcriptional regulator (XylR, CAC3673). xyn D and xyn T along with xyl genes are under transcriptional control of XylR. Bacteria are endowed with varying xylanolytic activity with distinct...”
• Ribulokinase and transcriptional regulation of arabinose metabolism in Clostridium acetobutylicum
  Zhang, Journal of bacteriology 2012
  • “...and CAC1346), araD (CAC1341), and araE (CAC1339 and CAC1345) genes in the araR-inactivated mutant were elevated more than 17-fold compared to that of the...”
  • “...for two putative arabinose protonsymporters (CAC1339 and CAC1345), which are considered to be responsible for arabinose uptake. Our previous genetic mutagenesis...”
• Pleiotropic functions of catabolite control protein CcpA in Butanol-producing Clostridium acetobutylicum
  Ren, BMC genomics 2012
  • “...product Change fold (824ccpA/824WT) Middle exponential phase (M) Stationary phase (S) Microarray qRT-PCR* Microarray qRT-PCR* CAC1345 xylT l -arabinose-proton symporter 71.6 92.522.55 147.39 326.54176.86 CAC2612 xylB Xylulose kinase 26.9 20.44.00 17.9 21.210.02 CAC1348 tkt1 Transketolase 5.6 4.420.23 7.9 6.40.21 CAC1941 abrB1941 Stationary/sporulation gene regulator 5.1 89.177.31...”
  • “...most of the genes necessary for l -arabinose uptake and metabolism, including araE1/araE2 (CAC1339 and CAC1345, encoding l -arabinose-proton symporter), araA1/araA2 (CAC1342 and CAC1346, encoding l -arabinose isomerase), araK (CAC1344, encoding ribulokinase) [ 44 ], araD (CAC1341, encoding l -ribulose-5-phosphate 4-epimerase), epi (CAC1349, encoding aldose 1-epimerase)...”
• Confirmation and elimination of xylose metabolism bottlenecks in glucose phosphoenolpyruvate-dependent phosphotransferase system-deficient Clostridium acetobutylicum for simultaneous utilization of glucose, xylose, and arabinose
  Xiao, Applied and environmental microbiology 2011
  • “...overcome by co-overexpression of the D-xylose proton-symporter (cac1345), D-xylose isomerase (cac2610), and xylulokinase (cac2612). As a result, an engineered...”
  • “...promoter Derived from pIMP1-Pthl, with xylT gene (cac1345) expressing cassette added Derived from pIMP1-Pthl, with xylA gene (cac2610) expressing cassette added...”
• Reconstruction of xylose utilization pathway and regulons in Firmicutes
  Gu, BMC genomics 2010
  • “...acetobutylicum the xylose utilization pathway also includes a xylulokinase (XylB, CAC2612), a xylose proton-symporter (XylT, CAC1345), and a transcriptional regulator (XylR, CAC3673). The predicted functions of these genes in C. acetobutylicum were experimentally confirmed through a combination of genetic and biochemical techniques. We conclusively showed that...”
  • “...of Bacilli/Clostridia have been annotated as xylose proton-symporter in the public databases ( e.g . CAC1345 of C. acetobutylicum ). In this study XylT was tentatively identified in more species such as C. beijerinckii . This functional assignment is supported by the conserved co-localization on the...”

NP_708708 MFS family galactose:proton symporter from Shigella flexneri 2a str. 301
29% identity, 92% coverage

• The MFS efflux pump EmrKY contributes to the survival of Shigella within macrophages.
  Pasqua, Scientific reports 2019
  • GeneRIF: The MFS efflux pump EmrKY contributes to the survival of Shigella within macrophages.

LOC123092952 sugar transport protein MST4 from Triticum aestivum
28% identity, 89% coverage

• Expression Profiling of the Slow Rusting Resistance Genes Lr34/Yr18 and Lr67/Yr46 in Common Wheat (Triticum aestivum L.) and Associated miRNAs Patterns
  Spychała, Genes 2023
  • “...genes three very similar duplicates were identified in common wheat genome (LOC123169079, LOC123087958, LOC123152986 and LOC123092952, LOC123098224, LOC123085159, respectively); therefore, universal primers were designed, amplifying studied genes together with other similar homologs ( Table 1 ). For each primer pair (i.e., each gene), a PCR with...”

LOC123098224 sugar transport protein MST4-like from Triticum aestivum
28% identity, 89% coverage

• Expression Profiling of the Slow Rusting Resistance Genes Lr34/Yr18 and Lr67/Yr46 in Common Wheat (Triticum aestivum L.) and Associated miRNAs Patterns
  Spychała, Genes 2023
  • “...three very similar duplicates were identified in common wheat genome (LOC123169079, LOC123087958, LOC123152986 and LOC123092952, LOC123098224, LOC123085159, respectively); therefore, universal primers were designed, amplifying studied genes together with other similar homologs ( Table 1 ). For each primer pair (i.e., each gene), a PCR with gradient...”

BBMN68_1664 sugar porter family MFS transporter from Bifidobacterium longum subsp. longum BBMN68
30% identity, 86% coverage

• Mechanism analysis of acid tolerance response of bifidobacterium longum subsp. longum BBMN 68 by gene expression profile using RNA-sequencing
  Jin, PloS one 2012
  • “...major facilitator superfamily proteins (MFS), which allow glucose to be symported with H + . BBMN68_1664 encoding the D-glucose-H + symporter (GlcP), one member of the putative permeases of the MFS in BBMN68, was found to have been upregulated by 2.17 fold ( Table S2 )....”
• Complete genome sequence of Bifidobacterium longum subsp. longum BBMN68, a new strain from a healthy chinese centenarian
  Hao, Journal of bacteriology 2011
  • “...(BBMN68_1004, BBMN68_1297) and sugar efflux (BBMN68_78, BBMN68_188, BBMN68_1664, BBMN68_1684) were found in the genome. A gene encoding a serine protease...”

b2943 galactose:H+ symporter (galP) from Escherichia coli BW25113
GalP / b2943 galactose:H⁺ symporter from Escherichia coli K-12 substr. MG1655 (see 6 papers)
GalP / P0AEP1 galactose:H⁺ symporter from Escherichia coli (strain K12) (see 7 papers)
GALP_ECOLI / P0AEP1 Galactose-proton symporter; Galactose transporter from Escherichia coli (strain K12) (see paper)
TC 2.A.1.1.1 / P0AEP1 Galactose:H+ symporter, GalP. Also transports glucose, xylose, fucose (6-deoxygalactose), 2-deoxygalactose and 2-deoxyglucose) (Henderson and Giddens 1977; from Escherichia coli (strain K12)
b2943 D-galactose transporter from Escherichia coli str. K-12 substr. MG1655
NP_417418 galactose:H(+) symporter from Escherichia coli str. K-12 substr. MG1655
DK885_04375, ETEC_3133 galactose/proton symporter from Escherichia coli ETEC H10407
29% identity, 92% coverage

• mutant phenotype: A characterized E. coli protein, see EcoCyc. Not sure why SEED has it as transporting arabinose. .
• function: Uptake of galactose across the boundary membrane with the concomitant transport of protons into the cell (symport system)
• substrates: D-galactose, Galactose
  tcdb comment: Henderson et al. 1977; Hernández-Montalvo et al., 2001). Relative substrate affinities of wild-type and mutant forms of the E. coli sugar transporter GalP have been determined by solid-state NMR (Patching et al., 2008). GalP may exist as a trimer with each subunit having a sugar transporting channel (Zheng et al. 2010)
• Automated characterization and analysis of expression compatibility between regulatory sequences and metabolic genes in Escherichia coli
  Wen, Synthetic and systems biotechnology 2024
  • “...b2388 glk Glucokinase b2913 serA Phosphoglycerate dehydrogenase b2914 rpiA Ribose-5-phosphate isomerase A b2935 tktA Transketolase b2943 galP Galactose/H+ symporter b3041 ribB 3,4-Dihydroxy-2-butanone-4-phosphate synthase b3916 pfkA 6-Phosphofructokinase 1 b3919 tpiA Triose-phosphate isomerase b4025 pgi Glucose-6-phosphate isomerase b3956 ppc Phosphoenolpyruvate carboxylase b4090 rpiB Ribose-5-phosphate isomerase b3386 rpe Ribulose...”
  • “...wide range of fluorescence intensities with different regulatory sequences. However, the fluorescence levels of genes b2943 (encoding a galactose:H + symporter) and b3952 (encoding a pyruvate formate lyase activating enzyme) remained relatively low. This may be due to these genes being subject to relatively strict regulation....”
• Systems Biology Approach to Bioremediation of Nitroaromatics: Constraint-Based Analysis of 2,4,6-Trinitrotoluene Biotransformation by Escherichia coli
  Iman, Molecules (Basel, Switzerland) 2017
  • “...GLCt2pp D-glucose transport in via proton symport (periplasm) glc-D[p] + h[p] -> glc-D[c] + h[c] b2943 NH4tpp Ammonia reversible transport (periplasm) nh4[p] <=> nh4[c] (b0451 or s0001) TPI Triose-phosphate isomerase dhap[c] <=> g3p[c] b3919 GLYCDx Glycerol dehydrogenase glyc[c] + nad[c] -> dha[c] + h[c] + nadh[c]...”
• Combinatorial strategies for improving multiple-stress resistance in industrially relevant Escherichia coli strains
  Lennen, Applied and environmental microbiology 2014
  • “...Description Fold change b0463 b0121 b2095 b4240 b3415 b2664 b2943 ECD_01942 b2028 b4114 b2845 b2663 acrA speE gatZ treB gntT csiR galP vioA ugd eptA yqeG gabP...”
• Transcription, translation, and the evolution of specialists and generalists
  Zhong, Molecular biology and evolution 2009
  • “...in Ancestors TD2 and TD10 b-Number b0719 b0879 b1639 b2943 b3287 b3306 b3508 SE, standard error. log2 LU/MG SE Gene Function 0.45 0.51 0.66 0.52 0.36 0.66...”
• Physiological studies of Escherichia coli strain MG1655: growth defects and apparent cross-regulation of gene expression
  Soupene, Journal of bacteriology 2003
  • “...resulted in higher levels of expression of: galP (b2943), which codes for a low-affinity galactose transporter; the mglBAC operon (b2150 to b2148), which codes...”
  • “...12 10 2.1 2.9 6.4 3.6 1.5 1.4 b2151 galS 1.3 3.3 b2943 galP 2.8 3.9 b2150 b2149 b2148 mglB mglA mglC 3.6 2.6 0.8 13 7.3 4.9 b4120 b4119 b4118 melB melA melR 1.0...”
• Escherichia coli gene expression responsive to levels of the response regulator EvgA
  Masuda, Journal of bacteriology 2002
  • “...b0553 nmpC b2167 b2168 b2169 fruA fruK fruB b2943 galP Mean Outer membrane porin protein; locus of qsr prophage PTS system, fructose-specific transport protein...”
• Kinetic analysis of the inhibition of the drug efflux protein AcrB using surface plasmon resonance.
  Mowla, Biochimica et biophysica acta. Biomembranes 2018 (PubMed)
  • GeneRIF: galactose-binding protein
• The prototypical H+/galactose symporter GalP assembles into functional trimers.
  Zheng, Journal of molecular biology 2010
  • GeneRIF: Each monomer in the trimer forms its own channel, but an additional cavity (10 approximately 15 A in diameter) is apparent at the 3-fold axis of the oligomer.
• Unfolding free energy of a two-domain transmembrane sugar transport protein.
  Findlay, Proceedings of the National Academy of Sciences of the United States of America 2010
  • GeneRIF: Unfolding free energy of a two-domain transmembrane sugar transport protein, GalP.
• Repression of galP, the galactose transporter in Escherichia coli, requires the specific regulator of N-acetylglucosamine metabolism.
  El, Molecular microbiology 2009 (PubMed)
  • GeneRIF: galP is repressed by a combination of NagC, GalR and GalS.
• Relative substrate affinities of wild-type and mutant forms of the Escherichia coli sugar transporter GalP determined by solid-state NMR.
  Patching, Molecular membrane biology 2008 (PubMed)
  • GeneRIF: effects of the galP mutations W56F, W239F, R316W, T336Y and W434F on glucose binding
• Contribution of Stenotrophomonas maltophilia MfsC transporter to protection against diamide and the regulation of its expression by the diamide responsive repressor DitR
  Boonyakanog, PloS one 2022
  • “...AraE (P0AE24), Bcr (P28246), Blt (P39843), Bmr (P33449), CmlA (Q83V15), EmrD (P31442), EmrD-3 (C3LUT7), GalP (P0AEP1), LacY (P02920), LmrP (Q48658), MdfA (P0AEY8), MdtG (P25744), MhpT (P77589), NorA (P0A0J7), TetA (P02981), XylE (P0AGF4), YicM (J7R7Q1). mfsC mutant is susceptible to diamide To evaluate the physiological function of...”
• Proton-coupled sugar transport in the prototypical major facilitator superfamily protein XylE
  Wisedchaisri, Nature communications 2014
  • “...XylE (P0AGF4); Lactobacillus brevis D -xylose/H + symporter XylT (O52733); Escherichia coli galactose permease GalP (P0AEP1); Escherichia coli arabinose permease AraE (P0AE24); Bacillus subtilis myo-inositol/H + transporter IolT (O34718); Arabidopsis thaliana inositol/H + symporter INT1 (Q8VZR6); Arabidopsis thaliana hexose/H + symporter STP1 (P23586); Parachlorella kessleri hexose/H...”
• A Novel SXT/R391 Integrative and Conjugative Element Carries Two Copies of the bla_NDM-1 Gene in Proteus mirabilis
  He, mSphere 2021
  • “...encoding 4-oxalomesaconate tautomerase (DK885_16125), bifunctional aldehyde dehydrogenase (DK885_12690), hydrogenase-4 component J (DK885_06720), and galactose-proton symporter (DK885_04375) was noticeable, whereas genes for multidrug resistance protein (MdtL), guanine/hypoxanthine permease (GhxQ), and cold shock protein (CspB) were expressed at lower levels in XH1814. We also compared gene expression levels...”
• The molecular basis for control of ETEC enterotoxin expression in response to environment and host
  Haycocks, PLoS pathogens 2015
  • “...) ( ygfI ) 3382158 TGTGA TCTACAA CAC G ETEC_3126 cmtB 3390811 TGTGA TTTGCT TCACA ETEC_3133 galP 3408173 TGTGA TGTGGA T A ACA ETEC_3154 nupG 3442697 TGTGA TGATTG TC G CA ETEC_3186 ETEC-specific 3558573 A GTGA TTTGGC TCACA ETEC_3291 ygiS 3580767 A GTGA CTTGCA TCACA (...”

LOC4332901 sugar transporter ERD6-like 16 from Oryza sativa Japonica Group
30% identity, 88% coverage

• Genome-wide dynamic network analysis reveals a critical transition state of flower development in Arabidopsis
  Zhang, BMC plant biology 2019
  • “...TPR-like domain containing protein. LOC4339280 1.36 up-regulated Cyclin-like F-box domain containing protein (F-box protein At5g46170) LOC4332901 1.32 up-regulated Sugar transporter-like protein LOC4324342 1.32 up-regulated Plant lipid transfer/seed storage/trypsin-alpha amylase inhibitor domain containing protein LOC4351030 1.32 up-regulated Hypothetical protein LOC4341957 1.31 up-regulated Macrophage migration inhibitory factor family...”

K5X82_00210 D-xylose transporter XylE from Halosquirtibacter xylanolyticus
30% identity, 92% coverage

• Halosquirtibacter laminarini gen. nov., sp. nov. and Halosquirtibacter xylanolyticus sp. nov., marine anaerobic laminarin and xylan degraders in the phylum Bacteroidota
  Nguyen, Scientific reports 2024
  • “...as xylose isomerase (K5X82_00205) in its genome. In the isomerase pathway, the xylose transporter XylE (K5X82_00210) is responsible for the uptake of xylooligosaccharides. Xylooligosaccharides are degraded into D-xylose at the periplasm under the function of GH3 (K5X82_03105) (Fig. 7 ). This model hypothesis was supported by...”

XP_011536149 proton myo-inositol cotransporter isoform X1 from Homo sapiens
26% identity, 76% coverage

• The genetic variants in calcium signaling related genes influence anti-tuberculosis drug induced liver injury: A prospective study.
  Lyu, Medicine 2019
  • GeneRIF: Our study revealed that both BDKRB2 and TENM2 genetic polymorphisms were interrogated in relation to anti-tuberculosis drug induced liver injury (ATDILI) susceptibility and some laboratory indicators in the Western Chinese Han population, shedding a new light on exploring novel biomarkers and targets for ATDILI.
• Proton myo-inositol cotransporter is a novel γ-secretase associated protein that regulates Aβ production without affecting Notch cleavage.
  Teranishi, The FEBS journal 2015 (PubMed)
  • GeneRIF: SLC2A13 is a novel gamma-secretase associated protein that regulates amyloid beta production without affecting Notch cleavage.
• Identification of genes associated with non-small-cell lung cancer promotion and progression.
  Bankovic, Lung cancer (Amsterdam, Netherlands) 2010 (PubMed)
  • GeneRIF: genetic alterations of TSPAN14, SLC2A13 and PHF20 could play a role in non-small-cell lung cancer promotion
• Evaluation of expression and function of the H+/myo-inositol transporter HMIT.
  Di, BMC cell biology 2009
  • GeneRIF: HMIT is primarily a neuronal transporter widely expressed in the rat and human brain, with particularly high levels in the hippocampus and cortex, as shown by immunohistochemistry.
• Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.
  Rose, Molecular medicine (Cambridge, Mass.)
  • GeneRIF: Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
• The Solute Carrier Family 2 Genes Are Potential Prognostic Biomarkers in Acute Myeloid Leukemia.
  Lai, Technology in cancer research & treatment
  • GeneRIF: The Solute Carrier Family 2 Genes Are Potential Prognostic Biomarkers in Acute Myeloid Leukemia.

AFUA_5G01160, Afu5g01160 MFS monosaccharide transporter, putative from Aspergillus fumigatus Af293
28% identity, 80% coverage

• Analysis of an Intrinsic Mycovirus Associated With Reduced Virulence of the Human Pathogenic Fungus Aspergillus fumigatus
  Takahashi-Nakaguchi, Frontiers in microbiology 2019
  • “...membrane transport was identified (RTA1 domain protein; AFUA_5G05640, MFS multidrug transporter; AFUA_4G01140, MFS monosaccharide transporter; AFUA_5G01160) ( Supplementary Table S2A ). Among the genes that were down-regulated in virus-infected A. fumigatus , the most drastic change was observed in the transcript encoding NAD-dependent formate dehydrogenase AciA/Fdh...”
• Comparative transcriptome analysis revealing dormant conidia and germination associated genes in Aspergillus species: an essential role for AtfA in conidial dormancy
  Hagiwara, BMC genomics 2016
  • “...- Conserved hypothetical protein Afu3g01210 An01g10950 AO090026000081 454.0 867.9 583.9 n.d. - ThiJ/PfpI family protein Afu5g01160 An03g02190 AO090020000259 338.5 21.7 12.7 full - Monosaccharide transporter Afu8g06020 An15g04770 AO090005000539 275.9 74.8 297.8 full - Glutamate decarboxylase Afu6g03890 An09g03130 AO090701000158 249.3 350.6 194.9 full catA Catalase A Afu1g03580...”
• Conservation of nucleosome positions in duplicated and orthologous gene pairs
  Nishida, TheScientificWorldJournal 2012
  • “...AFUA_8G05620 0.398124519 YHL001W AFUA_6G03830 0.397471165 YNL255C AFUA_1G07630 0.390527675 YGL006W AFUA_3G10690 0.389206341 YIL125W AFUA_4G11650 0.387564721 YMR011W AFUA_5G01160 0.381368332 YMR010W AFUA_5G03510 0.378223656 YMR319C AFUA_4G14640 0.376638524 YDL110C AFUA_1G09160 0.376540694 YOL086C AFUA_5G06240 0.376281416 YGR076C AFUA_4G09000 0.373900773 YOR204W AFUA_4G07660 0.368301524 YMR229C AFUA_2G16040 0.367246087 YLR025W AFUA_1G06420 0.363738278 YPL281C AFUA_6G06770 0.363265962 YOR294W AFUA_7G04430...”
  • “...AFUA_7G01030 0.222088168 YBR179C AFUA_5G13392 0.219453048 YKR082W AFUA_4G05840 0.214144582 YLR087C AFUA_2G13520 0.209434557 YCL064C AFUA_4G07810 0.204494803 YOL156W AFUA_5G01160 0.203744073 YBR249C AFUA_7G04070 0.202306902 YJL093C AFUA_3G07540 0.201465401 YOL077C AFUA_1G02210 0.196710807 YLR426W AFUA_1G06280 0.196041865 YMR060C AFUA_2G03840 0.194299595 YOR048C AFUA_1G13730 0.193994391 YDL174C AFUA_7G02560 0.193117882 YJL221C AFUA_8G07070 0.187015236 YGR054W AFUA_3G05970 0.181434929 YPR176C AFUA_7G04460...”
• Evolutionary Analysis of Sequence Divergence and Diversity of Duplicate Genes in Aspergillus fumigatus
  Yang, Evolutionary bioinformatics online 2012
  • “...1.19 [0.21, 1.58] Afu2g08040 1.79 [1.81, 0.81] Afu5g01040 1.18 [1.12, 2.70] Afu6g09970 0.61 [1.25, 2.20] Afu5g01160 1.17 [0.65, 2.17] Afu8g01180 0.57 [1.44, 1.32] Afu8g04470 1.16 [0.66, 2.13] Afu6g11320 1.79 [2.31, 1.80] Afu7g00390 1.13 [0.49, 1.91] Afu3g01120 0.66 [0.98, 1.94] Afu5g00980 1.13 [0.82, 2.31] Afu1g10370 0.97 [1.82,...”
• The proteomic signature of Aspergillus fumigatus during early development
  Cagas, Molecular & cellular proteomics : MCP 2011
  • “...File 8 Hours Microarray Data AFUA_8G04550 AFUA_5G01160 AFUA_6G12000 AFUA_7G01010 AFUA_8G02440 AFUA_5G08830 16 Hours Microarray Data AFUA_4G13510 AFUA_1G01490...”
• Sub-telomere directed gene expression during initiation of invasive aspergillosis
  McDonagh, PLoS pathogens 2008
  • “...monocarboxylate transporter 4.628176816 Afu8g01130 alpha-galactosidase C 2.8084929 Afu6g03060 monosaccharide transporter 4.576610248 Afu4g01070 acid phosphatase 3.4709519 Afu5g01160 monosaccharide transporter 4.53846138 Afu7g05610 glucanase 3.7652613 Afu4g13080 monosaccharide transporter 4.316438927 Afu4g00870 antigenic cell wall galactomannoprotein 2.8100298 Afu7g05830 MFS sugar transporter 4.069715654 Afu6g02980 extracellular exo-polygalacturonase 6.9692415 Afu6g14500 MFS sugar transporter 3.883566446...”

K9H0P1 MFS monosaccharide transporter, putative from Penicillium digitatum (strain Pd1 / CECT 20795)
26% identity, 88% coverage

• Deciphering Molecular Determinants Underlying Penicillium digitatum's Response to Biological and Chemical Antifungal Agents by Tandem Mass Tag (TMT)-Based High-Resolution LC-MS/MS
  Citores, International journal of molecular sciences 2022
  • “...resistance were downregulated following treatments with -sarcin and BE27 such as the MFS transporter (AC: K9H0P1). Another transporter involved in zinc homeostasis (i.e., the ZIP Zinc transporter, AC: K9FYG6) was only downregulated upon BE27 treatment as well as the Antifungal protein AFP (AC: K9FGI7), a small...”
  • “...1.18 23 3 9 K9F4E2 ZIP Zinc transporter, putative 0.7 0.63 0.69 7 3 5 K9H0P1 MFS monosaccharide transporter, putative 0.66 0.64 0.71 5 3 10 K9FBR5 SurE domain-containing protein 0.62 0.74 1.12 26 6 20...”

CH_124119 high-affinity glucose transporter from Magnaporthe grisea 70-15 (see paper)
28% identity, 79% coverage

AT1G79820 SGB1 (SUPPRESSOR OF G PROTEIN BETA1); carbohydrate transmembrane transporter/ sugar:hydrogen symporter from Arabidopsis thaliana
31% identity, 90% coverage

• A Detailed Analysis of the BR₁ Locus Suggests a New Mechanism for Bolting after Winter in Sugar Beet (Beta vulgaris L.)
  Tränkner, Frontiers in plant science 2016
  • “...determination of bilateral symmetry, xylem and phloem pattern formation, flower morphogenesis; F: sugar:hydrogen symporter activity) AT1G79820, SUPPRESSOR OF G PROTEIN BETA1 ( SGB1 ), protein involved in the carbohydrate transport through membranes Non-coding genes based on RefBeet-1.1 P br specific nucleotide changes compared to RefBeet-1.1 and...”
• The protein composition of the digestive fluid from the venus flytrap sheds light on prey digestion mechanisms
  Schulze, Molecular & cellular proteomics : MCP 2012
  • “...protein Suppressor of G protein beta1 (SGB1) AT1G79820 Cysteine proteinase (dionain-1) AT5G45890 XP_002510033 AT4G26880 A histone H2A protein Protein with...”
• Protonophore- and pH-insensitive glucose and sucrose accumulation detected by FRET nanosensors in Arabidopsis root tips
  Chaudhuri, The Plant journal : for cell and molecular biology 2008
  • “...relative expression in the lateral root cap and columella. Two clade VI plastidic glucose transporters, At1g79820 and At5g16150 , are more widely expressed in the root, excluding trichoblasts, although the same caveat regarding trichoblasts still applies. Four members of the aquaporin gene family ( PIP1;2, PIP1;3,...”
• A Golgi-localized hexose transporter is involved in heterotrimeric G protein-mediated early development in Arabidopsis
  Wang, Molecular biology of the cell 2006
  • “...on the TAIR database information for locus At1g79820 (http://www.arabidopsis.org/abrc). The promoter sequence was defined here as the upstream sequence of SGB1...”
  • “...the upstream locus, At1g79830, and start codon of At1g79820. All PCR reactions for cloning were conducted using high-fidelity Phusion DNA polymerase (Phusion,...”

ITR2_YEAST / P30606 Myo-inositol transporter 2 from Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast) (see 3 papers)
TC 2.A.1.1.104 / P30606 Myo-inositol transporter 2 from Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (see 7 papers)
HRB612 myo-inositol transporter ITR2 from Saccharomyces cerevisiae S288C
YOL103W Itr2p from Saccharomyces cerevisiae
28% identity, 74% coverage

• function: Minor transporter for myo-inositol.
  catalytic activity: myo-inositol(out) + H(+)(out) = myo-inositol(in) + H(+)(in) (RHEA:60364)
• substrates: myo-inositol
• Major facilitator superfamily
  Pao, Microbiology and molecular biology reviews : MMBR 1998
  • “...P43581 P40885 P39924 P42833 P47185 Z71687 P30605 X98622 P30606 S51081 P07921 P38156 P15685 P18631 X96876 Q10710 P38142 S58778 U32274 P43562 Z72626 P40441 P47186...”
• Metabolism and regulation of glycerolipids in the yeast Saccharomyces cerevisiae
  Henry, Genetics 2012
  • “...None ITR1 a Opi Inositol transporter 63.5 6.51 ND Plasma membrane 12 Several ITR2 ( HRB612 ) Inositol transporter 66.7 8.25 468 Plasma membrane 12 None HNM1 ( CTR1 ) a Choline transporter 62 6.83 ND Plasma membrane 12 Few GIT1 GroPIns/GroPCho transporter 57.3 8.64 ND...”
• Yeast Double Transporter Gene Deletion Library for Identification of Xenobiotic Carriers in Low or High Throughput
  Almeida, mBio 2021
  • “...YMR243C, YMR279C, YMR319C, YNL065W, YNL142W, YNL268W, YNL270C, YNL275W, YNL291C, YNL318C, YNR002C, YNR055C, YNR056C, YNR072W, YOL020W, YOL103W, YOL122C, YOL158C, YOR011W, YOR071C, YOR153W, YOR192C, YOR202W, YOR273C, YOR306C, YOR328W, YOR348C, YPL036W, YPL058C, YPL092W, YPL265W, YPL274W, YPR124W, YPR138C, YPR156C, YPR192W, YPR198W, and YPR201W ( 54 ). In the Y7092 background,...”
• Involvement of FST1 from Fusarium verticillioides in virulence and transport of inositol
  Niu, Molecular plant pathology 2017 (secret)
• Identification of Genes in Candida glabrata Conferring Altered Responses to Caspofungin, a Cell Wall Synthesis Inhibitor
  Rosenwald, G3 (Bethesda, Md.) 2016
  • “...transporter CAGL0E03311g YGR163w GTR2 Putative GTP binding protein that negatively regulates Ran/Tc4 GTPase cycle CAGL0I07447g YOL103w ITR2 Myo-inositol transporter CAGL0J07436g YNL231c PDR16 PITP controlled by the multiple drug resistance regulator Pdr1 CAGL0H04213g YML081W TDA1 Protein kinase with unknown role; localizes to cytosol and nucleus CAGL0J09966g YNL064c...”
• Using Gene Essentiality and Synthetic Lethality Information to Correct Yeast and CHO Cell Genome-Scale Models
  Chowdhury, Metabolites 2015
  • “...by 15 precursor molecules in appropriate biological ratios in Yeast 7.11. The in silico YDR497C YOL103W ( itr1 itr2 ) double deletion strain cannot uptake myo-inositol thereby showing decrease in vegetative growth in corroboration with in vivo studies [ 77 ]. YJL153C ( ino1 ) cannot...”
  • “.... Figure 10 Lipid metabolism disrupted due deletion of synthetic lethal gene triplet. YDR497C and YOL103W are isozymes coding for the protein catalyzing the myo-inositol transport into the cytosol from media. Reactions catalyzed by SL gene triplet are marked with red crosses. The essentiality and synthetic...”
• AVID: an integrative framework for discovering functional relationships among proteins
  Jiang, BMC bioinformatics 2005
  • “...also see, however, that YOL137W is predicted to share functional similarity with other proteins, e.g. YOL103W (GO:0005365, "myo-inositol transporter activity"), also on the basis of sequence similarity and mRNA co-expression. This demonstrates how examining AVID network relationships can provide a broader picture than the stage 4-assigned...”
• A novel design of whole-genome microarray probes for Saccharomyces cerevisiae which minimizes cross-hybridization
  Talla, BMC genomics 2003
  • “...YNL143c (flip ratios at the tested spots range from -2.1 to -1.2) but not for YOL103w , YDR497c , YGR086c , YJR148w and YLR058c (flip ratios at the tested spots range from -50 to -9). Note that, with the exception of YGR148c (missing spot of the...”
  • “...YLR109w , YML072c , YML113w , YMR011w , YMR169c , YMR170c , YNL143c , and YOL103w . The correct replacement of the target gene by the KANMX4 cassette in each deletion strain was confirmed by PCR amplification. All the deletant strains have normal growth phenotype. mRNA...”