PlantTFDB
Plant Transcription Factor Database
v4.0
Previous version: v1.0, v2.0, v3.0
Citrus sinensis
EIL Family
Species TF ID Description
orange1.1g007017mEIL family protein
orange1.1g007028mEIL family protein
orange1.1g007034mEIL family protein
orange1.1g007173mEIL family protein
orange1.1g007174mEIL family protein
orange1.1g007180mEIL family protein
orange1.1g007186mEIL family protein
orange1.1g007187mEIL family protein
orange1.1g007662mEIL family protein
orange1.1g007983mEIL family protein
orange1.1g007988mEIL family protein
orange1.1g008002mEIL family protein
orange1.1g009140mEIL family protein
orange1.1g009144mEIL family protein
orange1.1g012304mEIL family protein
orange1.1g012340mEIL family protein
orange1.1g016498mEIL family protein
orange1.1g016500mEIL family protein
orange1.1g016840mEIL family protein
orange1.1g038853mEIL family protein
EIL Family Introduction

The gaseous phytohormone ethylene regulates various processes related to growth, development, and stress response of higher plants. A largely linear pathway of ethylene signaling was revealed by a number of molecular genetic studies. In the pathway, Ethylene-insensitive3 (EIN3) and EIN3-like (EIL) proteins are the key transcription factors. The EIN3/EIL proteins were shown to regulate expression of the GCC-box-binding transcription factors, ethylene-response factors. It is known that the phenotype of the Arabidopsis thaliana EIN3 (AtEIN3)-deficient mutants, e.g. long seedlings in the presence of ethylene or its precursor, is suppressed by overexpression of Arabidopsis EIL1 (AtEIL1) or EIL2 (AtEIL2), indicating the functional equivalence of these proteins.

In the present study, a region corresponding to the major DBD of the EIN3/EIL transcription factor family, which is the key factor in the ethylene signaling, was identified. The isolated domain exists in a monomeric form and retained the sequence specificity for the DNA binding. The structure determined by NMR spectroscopy consists of five alpha-helices, packing into a novel fold dissimilar to known DBDs. An NMR titration analysis suggested that a region including the key mutation site, ein3-3 site, was shown to be involved in DNA binding.

Yamasaki K, Kigawa T, Inoue M, Yamasaki T, Yabuki T, Aoki M, Seki E, Matsuda T, Tomo Y, Terada T, Shirouzu M, Tanaka A, Seki M, Shinozaki K, Yokoyama S.
Solution structure of the major DNA-binding domain of Arabidopsis thaliana ethylene-insensitive3-like3.
J Mol Biol, 2005. 348(2): p. 253-64.
PMID: 15811366