PlantTFDB
PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
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(e.g., LFY)
Punica granatum
Trihelix Family
Species TF ID Description
Punica granatum
(27)
OWM63719.1Trihelix family protein
OWM64845.1Trihelix family protein
OWM65484.1Trihelix family protein
OWM68420.1Trihelix family protein
OWM69198.1Trihelix family protein
OWM72256.1Trihelix family protein
OWM72953.1Trihelix family protein
OWM74696.1Trihelix family protein
OWM75156.1Trihelix family protein
OWM75659.1Trihelix family protein
OWM76291.1Trihelix family protein
OWM76396.1Trihelix family protein
OWM78457.1Trihelix family protein
OWM81741.1Trihelix family protein
OWM82016.1Trihelix family protein
OWM82484.1Trihelix family protein
OWM82486.1Trihelix family protein
OWM85044.1Trihelix family protein
OWM85651.1Trihelix family protein
OWM86376.1Trihelix family protein
OWM87060.1Trihelix family protein
OWM87635.1Trihelix family protein
OWM89732.1Trihelix family protein
OWM89812.1Trihelix family protein
OWM89918.1Trihelix family protein
OWM90757.1Trihelix family protein
OWM90758.1Trihelix family protein
Trihelix Family Introduction

GT factors constitute a plant-specific transcription factor family with a DNA-binding domain that binds GT elements. The DNA-binding domain of GT factor, rich in basic and acidic amino acids and proline and glutamine residues, features a typical trihelix (helix-loop-helix-loop-helix) structure that determines the specific binding of GT elements; thus GT factors are also called trihelix transcription factors. GT elements are highly degenerate cis-elements with A/T-rich core sequences (Villain et al. 1996; Wang et al. 2004). Interaction between GT factors and GT elements has been implicated in the complex transcriptional regulation of many plant genes (Liu et al. 1999;Zhou 1999).

Fang Y, Xie K, Hou X, Hu H, Xiong L.
Systematic analysis of GT factor family of rice reveals a novel subfamily involved in stress responses.
Mol Genet Genomics, 2010. 283(2): p. 157-69.
PMID: 20039179