Family Search for PF04782 (DUF632)

PF04782 hits 17 sequences in PaperBLAST's database above the trusted cutoff. Showing hits to curated sequences only. Or see all hits or try another family.

APSR1_ARATH / A0A178VBJ0 Protein ALTERED PHOSPHATE STARVATION RESPONSE 1 from Arabidopsis thaliana (Mouse-ear cress) (see paper)
Aligns to 202:510 / 640 (48.3%), covers 99.7% of PF04782, 354.7 bits

• function: Required for the coordination of cell differentiation and cell elongation in the root tip (PubMed:23498857). Required for the coordination of cell processes necessary for correct root growth in response to phosphate starvation, through the modulation of the auxin transporter protein PIN7 (PubMed:23498857).
  disruption phenotype: Defects in primary root elongation and enhanced root hair elongation.

REL2_ORYSJ / Q9AQW1 Protein ROLLING AND ERECT LEAF 2 from Oryza sativa subsp. japonica (Rice) (see paper)
Aligns to 324:632 / 767 (40.3%), covers 99.7% of PF04782, 354.2 bits

• function: Involved in the regulation of leaf shape formation (PubMed:27473144). May function by coordinating the expression of genes associated with leaf and bulliform cell development (PubMed:27473144).
  disruption phenotype: Adaxially rolling and erect leaves which leads to plants with erect architecture and reduced lamina joint angle (PubMed:27473144). Abnormal bulliform cell number, size and arrangement in leaf blades (PubMed:27473144). Dark-green leaves with increased levels of chlorophylls (PubMed:27473144). Reduced number of tillers, altered grain morphology, and reduced number of grains per main panicle (PubMed:27473144). Reduced number and length of adventitious roots (PubMed:27473144).

NRG2_ARATH / Q93YU8 Nitrate regulatory gene2 protein; NRG2 protein from Arabidopsis thaliana (Mouse-ear cress) (see paper)
Aligns to 357:663 / 796 (38.6%), covers 99.7% of PF04782, 347.2 bits

• function: Required for nitrate signaling. Regulates expression of the nitrate-responsive genes NIA1, NIR1, NRT2.1 and NPF6.3/NRT1.1.
  subunit: Interacts with NLP7.
  disruption phenotype: Under high nitrate concentration, seedlings are slightly smaller and display later flowering than wild-type. Under low nitrate concentration, seedlings appear normal. Nitrate accumulation of the seedlings and roots is significantly lower than in wild-type, however no difference of nitrate accumulation in leaves. Nitrate content differences in roots and leaves may be due to the reduced expression of NPF6.3/NRT1.1 in roots and the increased expression of NPF7.2/NRT1.8 in leaves. After nitrate treatment, altered expression of many genes involved in nitrogen-related clusters including nitrate transport and response to nitrate.

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