GapMind for catabolism of small carbon sources

 

Protein WP_041259348.1 in Fibrella aestuarina BUZ 2

Annotation: NCBI__GCF_000331105.1:WP_041259348.1

Length: 448 amino acids

Source: GCF_000331105.1 in NCBI

Candidate for 22 steps in catabolism of small carbon sources

Pathway Step Score Similar to Id. Cov. Bits Other hit Other id. Other bits
D-fructose catabolism glcP hi D-fructose transporter, sugar porter family (characterized) 52% 93% 421.4 Arabinose-proton symporter; Arabinose transporter 38% 283.9
sucrose catabolism glcP hi D-fructose transporter, sugar porter family (characterized) 52% 93% 421.4 Arabinose-proton symporter; Arabinose transporter 38% 283.9
D-cellobiose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
D-glucose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
lactose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
D-maltose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
sucrose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
trehalose catabolism MFS-glucose lo Glucose/fructose:H+ symporter, GlcP (characterized) 37% 98% 288.5 D-fructose transporter, sugar porter family 52% 421.4
L-arabinose catabolism araE lo Arabinose-proton symporter; Arabinose transporter (characterized) 38% 94% 283.9 D-fructose transporter, sugar porter family 52% 421.4
D-galactose catabolism galP lo Arabinose-proton symporter; Arabinose transporter (characterized) 38% 94% 283.9 D-fructose transporter, sugar porter family 52% 421.4
D-xylose catabolism xylT lo Arabinose-proton symporter; Arabinose transporter (characterized) 38% 94% 283.9 D-fructose transporter, sugar porter family 52% 421.4
myo-inositol catabolism iolT lo Major myo-inositol transporter IolT (characterized) 35% 93% 261.9 D-fructose transporter, sugar porter family 52% 421.4
D-sorbitol (glucitol) catabolism SOT lo Sorbitol (D-Glucitol):H+ co-transporter, SOT1 (Km for sorbitol of 0.64 mM) of 509 aas and 12 TMSs (Gao et al. 2003). SOT1 of P. cerasus is expressed throughout fruit development, but especially when growth and sorbitol accumulation rates are highest. In leaves, PcSOT1 expression is highest in young, expanding tissues, but substantially less in mature leaves (characterized) 32% 89% 233.8 D-fructose transporter, sugar porter family 52% 421.4
xylitol catabolism PLT5 lo Polyol (xylitol):H+ symporter, PLT4 (characterized) 31% 90% 218.4 D-fructose transporter, sugar porter family 52% 421.4
D-fructose catabolism Slc2a5 lo The fructose/xylose:H+ symporter, PMT1 (polyol monosaccharide transporter-1). Also transports other substrates at lower rates. PMT2 is largely of the same sequence and function. Both are present in pollen and young xylem cells (Klepek et al., 2005). A similar ortholog has been identifed in pollen grains of Petunia hybrida (characterized) 32% 91% 217.2 D-fructose transporter, sugar porter family 52% 421.4
sucrose catabolism Slc2a5 lo The fructose/xylose:H+ symporter, PMT1 (polyol monosaccharide transporter-1). Also transports other substrates at lower rates. PMT2 is largely of the same sequence and function. Both are present in pollen and young xylem cells (Klepek et al., 2005). A similar ortholog has been identifed in pollen grains of Petunia hybrida (characterized) 32% 91% 217.2 D-fructose transporter, sugar porter family 52% 421.4
D-mannose catabolism STP6 lo The high affinity sugar:H+ symporter (sugar uptake) porter of 514 aas and 12 TMSs, STP10. It transports glucose, galactose and mannose, and is therefore a hexose transporter (Rottmann et al. 2016). The 2.4 (characterized) 31% 90% 213.4 D-fructose transporter, sugar porter family 52% 421.4
D-galactose catabolism gal2 lo galactose transporter (characterized) 31% 81% 198.4 D-fructose transporter, sugar porter family 52% 421.4
D-xylose catabolism gal2 lo galactose transporter (characterized) 31% 81% 198.4 D-fructose transporter, sugar porter family 52% 421.4
D-fructose catabolism STP6 lo sugar transport protein 6 (characterized) 31% 90% 195.3 D-fructose transporter, sugar porter family 52% 421.4
sucrose catabolism STP6 lo sugar transport protein 6 (characterized) 31% 90% 195.3 D-fructose transporter, sugar porter family 52% 421.4
myo-inositol catabolism HMIT lo Probable inositol transporter 2 (characterized) 35% 59% 194.1 D-fructose transporter, sugar porter family 52% 421.4

Sequence Analysis Tools

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Sequence

MSMANRTVLYWSIVVALGGFLFGFDTAVISGAERAIQQLWQLSSVQHGFTVSIALIGTVV
GSLIGGIPADRFGRRATLFGIAALYLISALGSALATDWTIFLIFRFLGGLGVGASSVAAP
LYIAEVSPAASRGRMVAMFQTNVVAGILVAYLSNYLLQGVGGDESWRWMLGVQTLPSLVF
FLALFGVPESPRWLVLNRGDKAGALATLQKVDPATASDTLAAIVASAQQPKTEQATPQPS
LFSRAYRLPIMLAVLFAVFNQVSGINAIIYYAPRIFELAGLGTSSALLSSVGIGVVNFLA
CVLALNFIDRFGRRVLMIIGSVGLVITLGLVAYAFAGKGLGGMTVPFLLFAYIGFFSFSQ
GAVIWVFISEIFPNEVRASGQALGSFTHWFMAALIAFSFPYLTEQFGPSTLFAFFCLMML
LQGLFVWRLMPETKGTSLEQMDSAIVLH

This GapMind analysis is from Sep 24 2021. The underlying query database was built on Sep 17 2021.

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About GapMind

Each pathway is defined by a set of rules based on individual steps or genes. Candidates for each step are identified by using ublast (a fast alternative to protein BLAST) against a database of manually-curated proteins (most of which are experimentally characterized) or by using HMMer with enzyme models (usually from TIGRFam). Ublast hits may be split across two different proteins.

A candidate for a step is "high confidence" if either:

where "other" refers to the best ublast hit to a sequence that is not annotated as performing this step (and is not "ignored").

Otherwise, a candidate is "medium confidence" if either:

Other blast hits with at least 50% coverage are "low confidence."

Steps with no high- or medium-confidence candidates may be considered "gaps." For the typical bacterium that can make all 20 amino acids, there are 1-2 gaps in amino acid biosynthesis pathways. For diverse bacteria and archaea that can utilize a carbon source, there is a complete high-confidence catabolic pathway (including a transporter) just 38% of the time, and there is a complete medium-confidence pathway 63% of the time. Gaps may be due to:

GapMind relies on the predicted proteins in the genome and does not search the six-frame translation. In most cases, you can search the six-frame translation by clicking on links to Curated BLAST for each step definition (in the per-step page).

For more information, see:

If you notice any errors or omissions in the step descriptions, or any questionable results, please let us know

by Morgan Price, Arkin group, Lawrence Berkeley National Laboratory