The Hsf world: Classification and properties of plant heat stress transcription factors

被引：4

作者：

Never, L

Scharf, KD

Gagliardi, D

Vergne, P

CzarneckaVerner, E

Gurley, WB

机构：

[1] ECOLE NORMALE SUPER LYON, INRA, UMR CNRS, F-69364 LYON 07, FRANCE

[2] UNIV FLORIDA, DEPT MICROBIOL & CELL SCI, GAINESVILLE, FL 32611 USA

来源：

CELL STRESS & CHAPERONES | 1996年 / 1卷 / 04期

关键词：

DNA-BINDING DOMAIN; SHOCK FACTOR-II; COILED-COIL; MOLECULAR CHAPERONES; FACTOR CONTAINS; PROTEIN; DROSOPHILA; EXPRESSION; GENES; CELL;

D O I：

10.1379/1466-1268(1996)001<0215:THWCAP>2.3.CO;2

中图分类号：

Q2 [细胞生物学];

学科分类号：

071009 ; 090102 ;

摘要：

Based on the partial or complete sequences of 14 plant heat stress transcription factors (Hsfs) from tomato, soybean, Arabidopsis and maize we propose a general nomenclature with two basic classes, i.e. classes A and B each containing two or more types of Hsfs (HsfA1, HsfA2 etc.). Despite some plant-specific peculiarities, essential functional domains and modules of these proteins are conserved among plants, yeast, Drosophila and vertebrates. A revised terminology of these parts follows recommendations agreed upon among the authors and representatives from other laboratories working in this field (see legend to Fig. 1). Similar to the situation with the small heat shock proteins (sHsps), the complexity of the hsf gene family in plants appears to be higher than in other eukaryotic organisms.

引用

页码：215 / 223

页数：9

共 50 条

[1] The plant heat stress transcription factor (Hsf) family: Structure, function and evolution
Scharf, Klaus-Dieter
Berberich, Thomas
Ebersberger, Ingo
Nover, Lutz
BIOCHIMICA ET BIOPHYSICA ACTA-GENE REGULATORY MECHANISMS, 2012, 1819 (02): : 104 - 119
[2] Genome-wide analysis of HSF family transcription factors and their responses to heat stress in Rosa chinensis
Li, Z. Q.
Zhang, F. J.
Liu, C. X.
Shen, S. Y.
Jin, X. L.
Zhang, M. H.
Wen, Y. F.
Xing, W.
III INTERNATIONAL SYMPOSIUM ON GERMPLASM OF ORNAMENTALS, 2020, 1291 : 237 - 248
[3] Genome-wide analysis reveals new roles for the activation domains of the Saccharomyces cerevisiae heat shock transcription factor (Hsf1) during the transient heat shock response
Eastmond, Dawn L.
Nelson, Hillary C. M.
JOURNAL OF BIOLOGICAL CHEMISTRY, 2006, 281 (43) : 32909 - 32921
[4] Heat stress transcription factors as the central molecular rheostat to optimize plant survival and recovery from heat stress
Bakery, Ayat
Vraggalas, Stavros
Shalha, Boushra
Chauchan, Harsh
Benhamed, Moussa
Fragkostefanakis, Sotirios
NEW PHYTOLOGIST, 2024, 244 (01) : 51 - 64
[5] Analyzing the regulatory role of heat shock transcription factors in plant heat stress tolerance: a brief appraisal
Haider, Saqlain
Raza, Ali
Iqbal, Javed
Shaukat, Muzaffar
Mahmood, Tariq
MOLECULAR BIOLOGY REPORTS, 2022, 49 (6) : 5771 - 5785
[6] HSF Transcription Factor Family, Heat Shock Response, and Protein Intrinsic Disorder
Westerheide, Sandy D.
Raynes, Rachel
Powell, Chase
Xue, Bin
Uversky, Vladimir N.
CURRENT PROTEIN & PEPTIDE SCIENCE, 2012, 13 (01) : 86 - 103
[7] Role of bZIP Transcription Factors in Plant Salt Stress
Liu, Haotian
Tang, Xun
Zhang, Ning
Li, Shigui
Si, Huaijun
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 2023, 24 (09)
[8] Diversification of heat shock transcription factors expanded thermal stress responses during early plant evolution
Wu, Ting-Ying
Hoh, Kar Ling
Boonyaves, Kulaporn
Krishnamoorthi, Shalini
Urano, Daisuke
PLANT CELL, 2022, 34 (10) : 3557 - 3576
[9] Plant BBR/BPC transcription factors: unlocking multilayered regulation in development, stress and immunity
Sahu, Anubhav
Singh, Ritu
Verma, Praveen Kumar
PLANTA, 2023, 258 (02)
[10] Heat and water stress induce unique transcriptional signatures of heat-shock proteins and transcription factors in grapevine
Rocheta, Margarida
Becker, Joerg D.
Coito, Joao L.
Carvalho, Luisa
Amancio, Sara
FUNCTIONAL & INTEGRATIVE GENOMICS, 2014, 14 (01) : 135 - 148

← 1 2 3 4 5 →