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Transcriptional activation by recruitment
scientific article (publication date: 10 April 1997)
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title
Transcriptional activation by recruitment
(English)
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https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&retmode=json&id=9121580
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30 April 2017
author name string
Ptashne M
series ordinal
1
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30 April 2017
Gann A
series ordinal
2
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30 April 2017
language of work or name
English
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publication date
10 April 1997
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30 April 2017
published in
Nature
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30 April 2017
volume
386
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30 April 2017
issue
6625
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PubMed
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30 April 2017
page(s)
569-77
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PubMed
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30 April 2017
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Structural and functional characterization of the short acidic transcriptional activation region of yeast GCN4 protein
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Contact with a component of the polymerase II holoenzyme suffices for gene activation
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Gene activation by recruitment of the RNA polymerase II holoenzyme
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Yeast TAF(II)90 is required for cell-cycle progression through G2/M but not for general transcription activation
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A novel transcription factor reveals a functional link between the RNA polymerase II CTD and TFIID.
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Negative effect of the transcriptional activator GAL4
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Removal of positioned nucleosomes from the yeast PHO5 promoter upon PHO5 induction releases additional upstream activating DNA elements.
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Structure and function of transcriptional activation domains
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Functional dissection of a eukaryotic transcriptional activator protein, GCN4 of yeast
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Direct and selective binding of an acidic transcriptional activation domain to the TATA-box factor TFIID
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Yeast TAFIIS in a multisubunit complex required for activated transcription.
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Transcription activation in cells lacking TAFIIS.
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TBP-associated factors are not generally required for transcriptional activation in yeast
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Binding of TAFs to core elements directs promoter selectivity by RNA polymerase II
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Binding of basal transcription factor TFIIH to the acidic activation domains of VP16 and p53
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Modulation of promoter occupancy by cooperative DNA binding and activation-domain function is a major determinant of transcriptional regulation by activators in vivo
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RNA polymerase II holoenzyme recruitment is sufficient to remodel chromatin at the yeast PHO5 promoter
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Reciprocal interferences between nucleosomal organization and transcriptional activity of the yeast SNR6 gene.
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Nucleosome loss activates yeast downstream promoters in vivo
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Special HATs for special occasions: linking histone acetylation to chromatin assembly and gene activation
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RSC, an essential, abundant chromatin-remodeling complex
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RNA polymerase II holoenzyme contains SWI/SNF regulators involved in chromatin remodeling
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Functional interdependence of the yeast SNF2, SNF5, and SNF6 proteins in transcriptional activation
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The histone deacetylase RPD3 counteracts genomic silencing in Drosophila and yeast
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Three functional classes of transcriptional activation domain
1 reference
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Crossref
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https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Mechanism and control of transcription initiation in prokaryotes
1 reference
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Crossref
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https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Initiation of transcription at the bacterial glnAp2 promoter by purified E. coli components is facilitated by enhancers.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Probing the Escherichia coli glnALG upstream activation mechanism in vivo
1 reference
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7 January 2021
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Synergy between Escherichia coli CAP protein and RNA polymerase in the lac promoter open complex.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Micrococcal nuclease as a probe for bound and distorted DNA in lac transcription and repression complexes.
1 reference
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Crossref
reference URL
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7 January 2021
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Mechanism of activation of transcription initiation from the λPRM promoter
1 reference
stated in
Crossref
reference URL
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7 January 2021
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Gene regulation at the right operator (OR) of bacteriophage lambda. III. lambda repressor directly activates gene transcription
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Dual regulation of open-complex formation and promoter clearance by Arc explains a novel repressor to activator switch
1 reference
stated in
Crossref
reference URL
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7 January 2021
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Activation and repression of transcription at two different phage phi29 promoters are mediated by interaction of the same residues of regulatory protein p4 with RNA polymerase
1 reference
stated in
Crossref
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https://api.crossref.org/works/10.1038%2F386569A0
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7 January 2021
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Identifiers
DOI
10.1038/386569A0
2 references
stated in
PubMed
reference URL
https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&retmode=json&id=9121580
retrieved
30 April 2017
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
858729
Dimensions Publication ID
1007258635
0 references
OpenCitations bibliographic resource ID
858729
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
858729
PubMed publication ID
9121580
2 references
stated in
PubMed
reference URL
https://eutils.ncbi.nlm.nih.gov/entrez/eutils/esummary.fcgi?db=pubmed&retmode=json&id=9121580
retrieved
30 April 2017
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
858729
ResearchGate publication ID
14095906
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