A dual role for H2A.Z.1 in modulating the dynamics of RNA polymerase II initiation and elongation
RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcript...
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| Published in | Nature structural & molecular biology Vol. 28; no. 5; pp. 435 - 442 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Nature Publishing Group US
01.05.2021
Nature Publishing Group |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1545-9993 1545-9985 1545-9985 |
| DOI | 10.1038/s41594-021-00589-3 |
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| Abstract | RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release.
The histone variant H2A.Z.1 influences the rate of RNAPII pause release and controls re-loading of TFIIB and TBP at promoters to ensure proper induction of gene expression programs. |
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| AbstractList | RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release.
The histone variant H2A.Z.1 influences the rate of RNAPII pause release and controls re-loading of TFIIB and TBP at promoters to ensure proper induction of gene expression programs. RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release. RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release. The histone variant H2A.Z.1 influences the rate of RNAPII pause release and controls re-loading of TFIIB and TBP at promoters to ensure proper induction of gene expression programs. RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release.RNA polymerase II (RNAPII) pausing immediately downstream of the transcription start site is a critical rate-limiting step for the expression of most metazoan genes. During pause release, RNAPII encounters a highly conserved +1 H2A.Z nucleosome, yet how this histone variant contributes to transcription is poorly understood. Here, using an inducible protein degron system combined with genomic approaches and live cell super-resolution microscopy, we show that H2A.Z.1 modulates RNAPII dynamics across most genes in murine embryonic stem cells. Our quantitative analysis shows that H2A.Z.1 slows the rate of RNAPII pause release and consequently impacts negative elongation factor dynamics as well as nascent transcription. Consequently, H2A.Z.1 also impacts re-loading of the pre-initiation complex components TFIIB and TBP. Altogether, this work provides a critical mechanistic link between H2A.Z.1 and the proper induction of mammalian gene expression programs through the regulation of RNAPII dynamics and pause release. |
| Audience | Academic |
| Author | Auld, Alexander L. Mylonas, Constantine Boyer, Laurie A. Lee, Choongman Cisse, Ibrahim I. |
| Author_xml | – sequence: 1 givenname: Constantine surname: Mylonas fullname: Mylonas, Constantine organization: Department of Biology, Massachusetts Institute of Technology – sequence: 2 givenname: Choongman surname: Lee fullname: Lee, Choongman organization: Department of Physics, Massachusetts Institute of Technology – sequence: 3 givenname: Alexander L. surname: Auld fullname: Auld, Alexander L. organization: Department of Biology, Massachusetts Institute of Technology – sequence: 4 givenname: Ibrahim I. orcidid: 0000-0002-8764-1809 surname: Cisse fullname: Cisse, Ibrahim I. organization: Department of Biology, Massachusetts Institute of Technology, Department of Physics, Massachusetts Institute of Technology – sequence: 5 givenname: Laurie A. orcidid: 0000-0003-3491-4962 surname: Boyer fullname: Boyer, Laurie A. email: lboyer@mit.edu organization: Department of Biology, Massachusetts Institute of Technology, Department of Biological Engineering, Massachusetts Institute of Technology |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/33972784$$D View this record in MEDLINE/PubMed |
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| Copyright | The Author(s), under exclusive licence to Springer Nature America, Inc. 2021 COPYRIGHT 2021 Nature Publishing Group The Author(s), under exclusive licence to Springer Nature America, Inc. 2021. |
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| SubjectTerms | 14 38 45 631/337/100/2286 631/57/2265 Animals Biochemistry Biological Microscopy Biomedical and Life Sciences DNA-directed RNA polymerase Dynamics Elongation Embryo cells Gene expression Genes Genetic aspects Genetic research Genetic transcription Histones Histones - metabolism Initiation complex Life Sciences Membrane Biology Mice Mice, Inbred C57BL Mouse Embryonic Stem Cells - cytology Mouse Embryonic Stem Cells - metabolism Nucleosomes - metabolism Protein Structure Ribonucleic acid RNA RNA polymerase RNA polymerase II RNA Polymerase II - metabolism RNA polymerases Stem cell transplantation Stem cells Structure Transcription initiation factor TFIIB Transcription, Genetic Translation elongation factors |
| Title | A dual role for H2A.Z.1 in modulating the dynamics of RNA polymerase II initiation and elongation |
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