Plant Transcription Factor Database
Previous version: v3.0
Triticum urartu
GATA Family
Species TF ID Description
TRIUR3_03165-P1GATA family protein
TRIUR3_07169-P1GATA family protein
TRIUR3_08114-P1GATA family protein
TRIUR3_08964-P1GATA family protein
TRIUR3_11107-P1GATA family protein
TRIUR3_11697-P1GATA family protein
TRIUR3_12995-P1GATA family protein
TRIUR3_13169-P1GATA family protein
TRIUR3_13697-P1GATA family protein
TRIUR3_15386-P1GATA family protein
TRIUR3_20013-P1GATA family protein
TRIUR3_20638-P1GATA family protein
TRIUR3_22272-P1GATA family protein
TRIUR3_23258-P1GATA family protein
TRIUR3_28905-P1GATA family protein
TRIUR3_30842-P1GATA family protein
TRIUR3_32095-P1GATA family protein
GATA Family Introduction

GATA factors were first identified as proteins that interact with conserved WGATAR (W = T or A; R = G or A) motifs involved in erythroid-specific gene expressionin vertebrates.

GATA factors are characterised by the presence of conserved, type-IV zinc-finger motifs Animal factors typically contain two C-x2-Cx17-C-x2-C zinc-finger domains. The majority of known fungal GATA factors contain a single C-x2-C-x17-C-x2-C finger with greatest similarity to the carboxyl (C) terminal finger of animal GATA factors.Several examples of fungal GATA factors containing a variant C-x2-C-x18-C-x2-C DNA-binding domain are also known.

Examples of both C-x2-C-x17-Cx2-C (Type IVa) and C-x2-C-x18-C-x2-C (Type IVb) GATA factors are found within fungi; animals onlycontain the former configuration, and plants only the latter. Plant GATA factors typically contain a single zinc finger. The Arabidopsis type-IV zinc-finger proteins may represent the previously defined family of nuclear GATA-binding proteins implicated in light-responsive transcription.

Teakle GR, Manfield IW, Graham JF, Gilmartin PM.
Arabidopsis thaliana GATA factors: organisation, expression and DNA-binding characteristics.
Plant Mol Biol. 2002 Sep;50(1):43-57.
PMID: 12139008