Nucleosomes Can Form a Polar Barrier to Transcript Elongation by RNA Polymerase II

Vladimir A. Bondarenko; Louise M. Steele; Andrea Újvári; Daria A. Gaykalova; Olga I. Kulaeva; Yury S. Polikanov; Donal S. Luse; Vasily M. Studitsky

doi:10.1016/j.molcel.2006.09.009

Nucleosomes Can Form a Polar Barrier to Transcript Elongation by RNA Polymerase II

Vladimir A. Bondarenko, Louise M. Steele, Andrea Újvári, Daria A. Gaykalova, Olga I. Kulaeva, Yury S. Polikanov, Donal S. Luse, Vasily M. Studitsky

Research output: Contribution to journal › Article › peer-review

177 Scopus citations

Abstract

Nucleosomes uniquely positioned on high-affinity DNA sequences present a polar barrier to transcription by human and yeast RNA polymerase II (Pol II). In one transcriptional orientation, these nucleosomes provide a strong, factor- and salt-insensitive barrier at the entry into the H3/H4 tetramer that can be recapitulated without H2A/H2B dimers. The same nucleosomes transcribed in the opposite orientation form a weaker, more diffuse barrier that is largely relieved by higher salt, TFIIS, or FACT. Barrier properties are therefore dictated by both the local nucleosome structure (influenced by the strength of the histone-DNA interactions) and the location of the high-affinity DNA region within the nucleosome. Pol II transcribes DNA sequences at the entry into the tetramer much less efficiently than the same sequences located distal to the nucleosome dyad. Thus, entry into the tetramer by Pol II facilitates further transcription, perhaps due to partial unfolding of the tetramer from DNA.

Original language	English (US)
Pages (from-to)	469-479
Number of pages	11
Journal	Molecular cell
Volume	24
Issue number	3
DOIs	https://doi.org/10.1016/j.molcel.2006.09.009
State	Published - Nov 3 2006
Externally published	Yes

Keywords

DNA

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/j.molcel.2006.09.009

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title = "Nucleosomes Can Form a Polar Barrier to Transcript Elongation by RNA Polymerase II",

abstract = "Nucleosomes uniquely positioned on high-affinity DNA sequences present a polar barrier to transcription by human and yeast RNA polymerase II (Pol II). In one transcriptional orientation, these nucleosomes provide a strong, factor- and salt-insensitive barrier at the entry into the H3/H4 tetramer that can be recapitulated without H2A/H2B dimers. The same nucleosomes transcribed in the opposite orientation form a weaker, more diffuse barrier that is largely relieved by higher salt, TFIIS, or FACT. Barrier properties are therefore dictated by both the local nucleosome structure (influenced by the strength of the histone-DNA interactions) and the location of the high-affinity DNA region within the nucleosome. Pol II transcribes DNA sequences at the entry into the tetramer much less efficiently than the same sequences located distal to the nucleosome dyad. Thus, entry into the tetramer by Pol II facilitates further transcription, perhaps due to partial unfolding of the tetramer from DNA.",

keywords = "DNA",

author = "Bondarenko, {Vladimir A.} and Steele, {Louise M.} and Andrea {\'U}jv{\'a}ri and Gaykalova, {Daria A.} and Kulaeva, {Olga I.} and Polikanov, {Yury S.} and Luse, {Donal S.} and Studitsky, {Vasily M.}",

note = "Funding Information: We thank John Widom for plasmids containing the nucleosome-positioning sequences, Guohong Li and Danny Reinberg for purified human FACT, and Mahadeb Pal for assistance with preparation of human transcription components. This work was supported by National Institutes of Health (NIH) grant GM58650 to V.M.S. and by NIH grant GM59684 and support from the Cleveland Clinic to D.S.L. ",

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doi = "10.1016/j.molcel.2006.09.009",

language = "English (US)",

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T1 - Nucleosomes Can Form a Polar Barrier to Transcript Elongation by RNA Polymerase II

AU - Bondarenko, Vladimir A.

AU - Steele, Louise M.

AU - Újvári, Andrea

AU - Gaykalova, Daria A.

AU - Kulaeva, Olga I.

AU - Polikanov, Yury S.

AU - Luse, Donal S.

AU - Studitsky, Vasily M.

N1 - Funding Information: We thank John Widom for plasmids containing the nucleosome-positioning sequences, Guohong Li and Danny Reinberg for purified human FACT, and Mahadeb Pal for assistance with preparation of human transcription components. This work was supported by National Institutes of Health (NIH) grant GM58650 to V.M.S. and by NIH grant GM59684 and support from the Cleveland Clinic to D.S.L.

PY - 2006/11/3

Y1 - 2006/11/3

N2 - Nucleosomes uniquely positioned on high-affinity DNA sequences present a polar barrier to transcription by human and yeast RNA polymerase II (Pol II). In one transcriptional orientation, these nucleosomes provide a strong, factor- and salt-insensitive barrier at the entry into the H3/H4 tetramer that can be recapitulated without H2A/H2B dimers. The same nucleosomes transcribed in the opposite orientation form a weaker, more diffuse barrier that is largely relieved by higher salt, TFIIS, or FACT. Barrier properties are therefore dictated by both the local nucleosome structure (influenced by the strength of the histone-DNA interactions) and the location of the high-affinity DNA region within the nucleosome. Pol II transcribes DNA sequences at the entry into the tetramer much less efficiently than the same sequences located distal to the nucleosome dyad. Thus, entry into the tetramer by Pol II facilitates further transcription, perhaps due to partial unfolding of the tetramer from DNA.

AB - Nucleosomes uniquely positioned on high-affinity DNA sequences present a polar barrier to transcription by human and yeast RNA polymerase II (Pol II). In one transcriptional orientation, these nucleosomes provide a strong, factor- and salt-insensitive barrier at the entry into the H3/H4 tetramer that can be recapitulated without H2A/H2B dimers. The same nucleosomes transcribed in the opposite orientation form a weaker, more diffuse barrier that is largely relieved by higher salt, TFIIS, or FACT. Barrier properties are therefore dictated by both the local nucleosome structure (influenced by the strength of the histone-DNA interactions) and the location of the high-affinity DNA region within the nucleosome. Pol II transcribes DNA sequences at the entry into the tetramer much less efficiently than the same sequences located distal to the nucleosome dyad. Thus, entry into the tetramer by Pol II facilitates further transcription, perhaps due to partial unfolding of the tetramer from DNA.

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Nucleosomes Can Form a Polar Barrier to Transcript Elongation by RNA Polymerase II

Abstract

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