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Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level

The application of deep sequencing to map 5′ capped transcripts has confirmed the existence of at least two distinct promoter classes in metazoans: “focused” promoters with transcription start sites (TSSs) that occur in a narrowly defined genomic span and “dispersed” promoters with TSSs that are spr...

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Autores principales: Rach, Elizabeth A., Winter, Deborah R., Benjamin, Ashlee M., Corcoran, David L., Ni, Ting, Zhu, Jun, Ohler, Uwe
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2011
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3020932/
https://www.ncbi.nlm.nih.gov/pubmed/21249180
http://dx.doi.org/10.1371/journal.pgen.1001274
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author Rach, Elizabeth A.
Winter, Deborah R.
Benjamin, Ashlee M.
Corcoran, David L.
Ni, Ting
Zhu, Jun
Ohler, Uwe
author_facet Rach, Elizabeth A.
Winter, Deborah R.
Benjamin, Ashlee M.
Corcoran, David L.
Ni, Ting
Zhu, Jun
Ohler, Uwe
author_sort Rach, Elizabeth A.
collection PubMed
description The application of deep sequencing to map 5′ capped transcripts has confirmed the existence of at least two distinct promoter classes in metazoans: “focused” promoters with transcription start sites (TSSs) that occur in a narrowly defined genomic span and “dispersed” promoters with TSSs that are spread over a larger window. Previous studies have explored the presence of genomic features, such as CpG islands and sequence motifs, in these promoter classes, but virtually no studies have directly investigated the relationship with chromatin features. Here, we show that promoter classes are significantly differentiated by nucleosome organization and chromatin structure. Dispersed promoters display higher associations with well-positioned nucleosomes downstream of the TSS and a more clearly defined nucleosome free region upstream, while focused promoters have a less organized nucleosome structure, yet higher presence of RNA polymerase II. These differences extend to histone variants (H2A.Z) and marks (H3K4 methylation), as well as insulator binding (such as CTCF), independent of the expression levels of affected genes. Notably, differences are conserved across mammals and flies, and they provide for a clearer separation of promoter architectures than the presence and absence of CpG islands or the occurrence of stalled RNA polymerase. Computational models support the stronger contribution of chromatin features to the definition of dispersed promoters compared to focused start sites. Our results show that promoter classes defined from 5′ capped transcripts not only reflect differences in the initiation process at the core promoter but also are indicative of divergent transcriptional programs established within gene-proximal nucleosome organization.
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spelling pubmed-30209322011-01-19 Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level Rach, Elizabeth A. Winter, Deborah R. Benjamin, Ashlee M. Corcoran, David L. Ni, Ting Zhu, Jun Ohler, Uwe PLoS Genet Research Article The application of deep sequencing to map 5′ capped transcripts has confirmed the existence of at least two distinct promoter classes in metazoans: “focused” promoters with transcription start sites (TSSs) that occur in a narrowly defined genomic span and “dispersed” promoters with TSSs that are spread over a larger window. Previous studies have explored the presence of genomic features, such as CpG islands and sequence motifs, in these promoter classes, but virtually no studies have directly investigated the relationship with chromatin features. Here, we show that promoter classes are significantly differentiated by nucleosome organization and chromatin structure. Dispersed promoters display higher associations with well-positioned nucleosomes downstream of the TSS and a more clearly defined nucleosome free region upstream, while focused promoters have a less organized nucleosome structure, yet higher presence of RNA polymerase II. These differences extend to histone variants (H2A.Z) and marks (H3K4 methylation), as well as insulator binding (such as CTCF), independent of the expression levels of affected genes. Notably, differences are conserved across mammals and flies, and they provide for a clearer separation of promoter architectures than the presence and absence of CpG islands or the occurrence of stalled RNA polymerase. Computational models support the stronger contribution of chromatin features to the definition of dispersed promoters compared to focused start sites. Our results show that promoter classes defined from 5′ capped transcripts not only reflect differences in the initiation process at the core promoter but also are indicative of divergent transcriptional programs established within gene-proximal nucleosome organization. Public Library of Science 2011-01-13 /pmc/articles/PMC3020932/ /pubmed/21249180 http://dx.doi.org/10.1371/journal.pgen.1001274 Text en Rach et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Rach, Elizabeth A.
Winter, Deborah R.
Benjamin, Ashlee M.
Corcoran, David L.
Ni, Ting
Zhu, Jun
Ohler, Uwe
Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title_full Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title_fullStr Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title_full_unstemmed Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title_short Transcription Initiation Patterns Indicate Divergent Strategies for Gene Regulation at the Chromatin Level
title_sort transcription initiation patterns indicate divergent strategies for gene regulation at the chromatin level
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3020932/
https://www.ncbi.nlm.nih.gov/pubmed/21249180
http://dx.doi.org/10.1371/journal.pgen.1001274
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