PlantTFDB
Plant Transcription Factor Database
v4.0
Previous version: v1.0, v2.0, v3.0
Vitis vinifera
GATA Family
Species TF ID Description
GSVIVT01009197001GATA family protein
GSVIVT01009198001GATA family protein
GSVIVT01012518001GATA family protein
GSVIVT01012523001GATA family protein
GSVIVT01013319001GATA family protein
GSVIVT01015204001GATA family protein
GSVIVT01017011001GATA family protein
GSVIVT01018180001GATA family protein
GSVIVT01018833001GATA family protein
GSVIVT01018951001GATA family protein
GSVIVT01024194001GATA family protein
GSVIVT01025199001GATA family protein
GSVIVT01029593001GATA family protein
GSVIVT01031203001GATA family protein
GSVIVT01032362001GATA family protein
GSVIVT01033385001GATA family protein
GSVIVT01035048001GATA family protein
GSVIVT01035406001GATA family protein
GSVIVT01035614001GATA 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