Related references
Note: Only part of the references are listed.The plant heat stress transcription factor (Hsf) family: Structure, function and evolution
Klaus-Dieter Scharf et al.
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The wheat chloroplastic small heat shock protein (sHSP26) is involved in seed maturation and germination and imparts tolerance to heat stress
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Expression analysis of a heat-inducible, Myo-inositol-1-phosphate synthase (MIPS) gene from wheat and the alternatively spliced variants of rice and Arabidopsis
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PLANT CELL REPORTS (2012)
Binding affinities and interactions among different heat shock element types and heat shock factors in rice (Oryza sativa L.)
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FEBS JOURNAL (2011)
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Arabidopsis HsfA1 transcription factors function as the main positive regulators in heat shock-responsive gene expression
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MOLECULAR GENETICS AND GENOMICS (2011)
HsfA1d and HsfA1e Involved in the Transcriptional Regulation of HsfA2 Function as Key Regulators for the Hsf Signaling Network in Response to Environmental Stress
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Identification and characterization of high temperature stress responsive genes in bread wheat (Triticum aestivum L.) and their regulation at various stages of development
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PLANT MOLECULAR BIOLOGY (2011)
Expression Profiles of Class A Rice Heat Shock Transcription Factor Genes Under Abiotic Stresses
Ai-Ling Liu et al.
JOURNAL OF PLANT BIOLOGY (2010)
Sumoylation of Arabidopsis heat shock factor A2 (HsfA2) modifies its activity during acquired thermotholerance
Reut Cohen-Peer et al.
PLANT MOLECULAR BIOLOGY (2010)
The Heat-Inducible Transcription Factor HsfA2 Enhances Anoxia Tolerance in Arabidopsis
Valeria Banti et al.
PLANT PHYSIOLOGY (2010)
Heat Shock Factors HsfB1 and HsfB2b Are Involved in the Regulation of Pdf1.2 Expression and Pathogen Resistance in Arabidopsis
Mukesh Kumar et al.
MOLECULAR PLANT (2009)
Orthologs of the Class A4 Heat Shock Transcription Factor HsfA4a Confer Cadmium Tolerance in Wheat and Rice
Donghwan Shim et al.
PLANT CELL (2009)
Heat shock factor gene family in rice: Genomic organization and transcript expression profiling in response to high temperature, low temperature and oxidative stresses
Dheeraj Mittal et al.
PLANT PHYSIOLOGY AND BIOCHEMISTRY (2009)
Genome-wide analysis of heat shock transcription factor families in rice and Arabidopsis
Jingkang Guo et al.
JOURNAL OF GENETICS AND GENOMICS (2008)
Isolation of heat shock factor HsfA1a-binding sites in vivo revealed variations of heat shock elements in Arabidopsis thaliana
Lihong Guo et al.
PLANT AND CELL PHYSIOLOGY (2008)
The ectopic overexpression of a seed-specific transcription factor, HaHSFA9, confers tolerance to severe dehydration in vegetative organs
Pilar Prieto-Dapena et al.
PLANT JOURNAL (2008)
Expression of rice heat stress transcription factor OsHsfA2e enhances tolerance to environmental stresses in transgenic Arabidopsis
Naoki Yokotani et al.
PLANTA (2008)
High-level overexpression of the Arabidopsis HsfA2 gene confers not only increased themotolerance but also salt/osmotic stress tolerance and enhanced callus growth
Daisuke Ogawa et al.
JOURNAL OF EXPERIMENTAL BOTANY (2007)
Enhanced thermostability of Arabidopsis Rubisco activase improves photosynthesis and growth rates under moderate heat stress
Itzhak Kurek et al.
PLANT CELL (2007)
Transcriptional profiling of Arabidopsis heat shock proteins and transcription factors reveals extensive overlap between heat and non-heat stress response pathways
William R. Swindell et al.
BMC GENOMICS (2007)
A heat-inducible transcription factor, HsfA2, is required for extension of acquired thermotolerance in Arabidopsis
Yee-yung Charng et al.
PLANT PHYSIOLOGY (2007)
A novel transcriptional cascade regulating expression of heat stress proteins during seed development of Arabidopsis
Sachin Kotak et al.
PLANT CELL (2007)
Arabidopsis heat shock transcription factor A2 as a key regulator in response to several types of environmental stress
Ayako Nishizawa et al.
PLANT JOURNAL (2006)
Could heat shock transcription factors function as hydrogen peroxide sensors in plants?
Gad Miller et al.
ANNALS OF BOTANY (2006)
An insight into the molecular basis of salt tolerance of L-myo-inositol 1-P synthase (PcINO1) from Porteresia coarctata (Roxb.) Tateoka, a halophytic wild rice
KG Dastidar et al.
PLANT PHYSIOLOGY (2006)
The heat stress transcription factor HsfA2 serves as a regulatory amplifier of a subset of genes in the heat stress response in Arabidopsis
F Schramm et al.
PLANT MOLECULAR BIOLOGY (2006)
AtHsfA2 modulates expression of stress responsive genes and enhances tolerance to heat and oxidative stress in Arabidopsis
CG Li et al.
SCIENCE IN CHINA SERIES C-LIFE SCIENCES (2005)
Cytosolic ascorbate peroxidase 1 is a central component of the reactive oxygen gene network of Arabidopsis
S Davletova et al.
PLANT CELL (2005)
Identification of novel heat shock factor-dependent genes and biochemical pathways in Arabidopsis thaliana
W Busch et al.
PLANT JOURNAL (2005)
Heat stress response in plants:: a complex game with chaperones and more than twenty heat stress transcription factors
SK Baniwal et al.
JOURNAL OF BIOSCIENCES (2004)
Characterization of C-terminal domains of Arabidopsis heat stress transcription factors (Hsfs) and identification of a new signature combination of plant class A Hsfs with AHA and NES motifs essential for activator function and intracellular localization
S Kotak et al.
PLANT JOURNAL (2004)
Tomato heat stress transcription factor HsfB1 represents a novel type of general transcription coactivator with a histone-like motif interacting with the plant CREB binding protein ortholog HAC1
K Bharti et al.
PLANT CELL (2004)
In the complex family of heat stress transcription factors, HSfA1 has a unique role as master regulator of thermotolerance in tomato
SK Mishra et al.
GENES & DEVELOPMENT (2002)
A rice spotted leaf gene, SpI7, encodes a heat stress transcription factor protein
U Yamanouchi et al.
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA (2002)
Important roles of drought- and cold-inducible genes for galactinol synthase in stress tolerance in Arabidopsis thaliana
T Taji et al.
PLANT JOURNAL (2002)
At-HSP17.6A, encoding a small heat-shock protein in Arabidopsis, can enhance osmotolerance upon overexpression
WN Sun et al.
PLANT JOURNAL (2001)
The expression of small heat shock proteins in seeds responds to discrete developmental signals and suggests a general protective role in desiccation tolerance
N Wehmeyer et al.
PLANT PHYSIOLOGY (2000)