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Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis
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scholarly article
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stated in
PubMed
PubMed ID
27320198
retrieved
1 December 2016
title
Defining the Essential Function of Yeast Hsf1 Reveals a Compact Transcriptional Program for Maintaining Eukaryotic Proteostasis
(English)
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stated in
PubMed
PubMed ID
27320198
retrieved
1 December 2016
main subject
cell biology
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Stress-responsive transcription factor HSF1 YGL073W
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GOA release 2020-03-11
author name string
Eric J Solís
series ordinal
1
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Jai P Pandey
series ordinal
2
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Xu Zheng
series ordinal
3
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Dexter X Jin
series ordinal
4
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Piyush B Gupta
series ordinal
5
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Edoardo M Airoldi
series ordinal
6
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David Pincus
series ordinal
7
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Vladimir Denic
series ordinal
8
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language of work or name
English
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publication date
7 July 2016
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published in
Molecular Cell
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stated in
PubMed
PubMed ID
27320198
retrieved
1 December 2016
volume
63
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issue
1
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page(s)
60-71
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A yeast heat shock transcription factor (Hsf1) mutant is defective in both Hsc82/Hsp82 synthesis and spindle pole body duplication.
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Msn2p, a zinc finger DNA-binding protein, is the transcriptional activator of the multistress response in Saccharomyces cerevisiae
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Regulation of HSF1 function in the heat stress response: implications in aging and disease
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Activation of heat shock gene transcription by heat shock factor 1 involves oligomerization, acquisition of DNA-binding activity, and nuclear localization and can occur in the absence of stress
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Mammalian Heat Shock Response and Mechanisms Underlying Its Genome-wide Transcriptional Regulation
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MEK guards proteome stability and inhibits tumor-suppressive amyloidogenesis via HSF1.
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RPA assists HSF1 access to nucleosomal DNA by recruiting histone chaperone FACT.
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HSF1 drives a transcriptional program distinct from heat shock to support highly malignant human cancers
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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
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Genome-wide analysis of the biology of stress responses through heat shock transcription factor
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The role of heat shock transcription factor 1 in the genome-wide regulation of the mammalian heat shock response
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A trans-activation domain in yeast heat shock transcription factor is essential for cell cycle progression during stress
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Yeast PKA represses Msn2p/Msn4p-dependent gene expression to regulate growth, stress response and glycogen accumulation
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29 September 2017
Conservation of a stress response: human heat shock transcription factors functionally substitute for yeast HSF.
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29 September 2017
Heat shock factor gains access to the yeast HSC82 promoter independently of other sequence-specific factors and antagonizes nucleosomal repression of basal and induced transcription
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29 September 2017
Heat shock transcription factors: structure and regulation
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29 September 2017
A critical role for heat shock transcription factor in establishing a nucleosome-free region over the TATA-initiation site of the yeast HSP82 heat shock gene.
1 reference
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29 September 2017
Genetic identification of the site of DNA contact in the yeast heat shock transcription factor
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29 September 2017
Constitutive binding of yeast heat shock factor to DNA in vivo
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29 September 2017
Three tomato genes code for heat stress transcription factors with a region of remarkable homology to the DNA-binding domain of the yeast HSF
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29 September 2017
A conserved heptapeptide restrains the activity of the yeast heat shock transcription factor.
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29 September 2017
Role of the heat shock transcription factor, Hsf1, in a major fungal pathogen that is obligately associated with warm-blooded animals.
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2 June 2018
Targeted disruption of heat shock transcription factor 1 abolishes thermotolerance and protection against heat-inducible apoptosis.
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2 June 2018
Purification and characterization of a heat-shock element binding protein from yeast.
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2 June 2018
Yeast heat shock factor is an essential DNA-binding protein that exhibits temperature-dependent phosphorylation.
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2 June 2018
Regulation of chaperone gene expression by heat shock transcription factor in Saccharomyces cerevisiae: importance in normal cell growth, stress resistance, and longevity.
1 reference
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27 November 2018
The anchor-away technique: rapid, conditional establishment of yeast mutant phenotypes
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27 November 2018
Targeted disruption of hsf1 leads to lack of thermotolerance and defines tissue-specific regulation for stress-inducible Hsp molecular chaperones.
1 reference
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27 November 2018
Transcriptional factor mutations reveal regulatory complexities of heat shock and newly identified stress genes in Saccharomyces cerevisiae.
1 reference
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PubMed Central
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27 November 2018
The heat shock response in yeast: differential regulations and contributions of the Msn2p/Msn4p and Hsf1p regulons
1 reference
stated in
PubMed
reference URL
https://pubmed.ncbi.nlm.nih.gov/27320198
retrieved
12 December 2020
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Identifiers
DOI
10.1016/J.MOLCEL.2016.05.014
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PMCID
4938784
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PubMed ID
27320198
1 reference
stated in
PubMed
PubMed ID
27320198
retrieved
1 December 2016
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