PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
Previous version: v3.0 v4.0
Aquilegia coerulea
TALE Family
Species TF ID Description
Aqcoe1G078800.1.pTALE family protein
Aqcoe1G078800.2.pTALE family protein
Aqcoe1G078800.3.pTALE family protein
Aqcoe1G138800.1.pTALE family protein
Aqcoe1G341500.1.pTALE family protein
Aqcoe1G341500.2.pTALE family protein
Aqcoe2G233200.1.pTALE family protein
Aqcoe2G274900.1.pTALE family protein
Aqcoe3G280300.1.pTALE family protein
Aqcoe4G224800.1.pTALE family protein
Aqcoe5G183500.1.pTALE family protein
Aqcoe5G183600.1.pTALE family protein
Aqcoe5G183600.2.pTALE family protein
Aqcoe5G183600.3.pTALE family protein
Aqcoe5G183600.4.pTALE family protein
Aqcoe5G202000.1.pTALE family protein
Aqcoe5G202000.2.pTALE family protein
Aqcoe5G437300.1.pTALE family protein
Aqcoe5G437300.2.pTALE family protein
Aqcoe6G107900.1.pTALE family protein
Aqcoe6G107900.2.pTALE family protein
Aqcoe6G129700.1.pTALE family protein
Aqcoe6G318700.1.pTALE family protein
Aqcoe7G052800.1.pTALE family protein
Aqcoe7G132200.1.pTALE family protein
Aqcoe7G132200.2.pTALE family protein
TALE Family Introduction

A homeobox (HB) encodes a protein domain, the homeodomain (HD), which is a conserved 60-amino acid motif present in transcription factors found in all the eukaryotic organisms. This 60-amino acid sequence folds into a characteristic three-helix structure that is able to interact specifically with DNA. Most HDs are able to bind DNA as monomers with high affinity, through interactions made by helix III (the so-called recognition helix) and a disordered N-terminal arm located beyond helix I. The high degree of conservation of this type of domain among diverse proteins from different kingdoms indicates that this structure is crucial to maintain the HD functionality and that the role played by this domain is vital.

Ariel FD, Manavella PA, Dezar CA, Chan RL.
The true story of the HD-Zip family.
Trends Plant Sci, 2007. 12(9): p. 419-26.
PMID: 17698401

the three-amino-acid-loop-extension (TALE) class of homeoproteins has been shown to control meristem formation and/or maintenance, organ morphogenesis, organ position, and several aspects of the reproductive phase. This family contains the KNOTTED-like homeodomain (KNOX) and BEL1-like Homeodomain (BELL) members, which function as heterodimers.

Hamant O, Pautot V.
Plant development: a TALE story.
C R Biol, 2010. 333(4): p. 371-81.
PMID: 20371112