Nucleosome organization in the Drosophila genome

Travis N. Mavrich; Cizhong Jiang; Ilya P. Ioshikhes; Xiaoyong Li; Bryan J. Venters; Sara J. Zanton; Lynn P. Tomsho; Ji Qi; Robert L. Glaser; Stephan C. Schuster; David S. Gilmour; Istvan Albert; B. Franklin Pugh

doi:10.1038/nature06929

Nucleosome organization in the Drosophila genome

Travis N. Mavrich, Cizhong Jiang, Ilya P. Ioshikhes, Xiaoyong Li, Bryan J. Venters, Sara J. Zanton, Lynn P. Tomsho, Ji Qi, Robert L. Glaser, Stephan C. Schuster, David S. Gilmour, Istvan Albert, B. Franklin Pugh

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

592 Citations (Scopus)

Abstract

Comparative genomics of nucleosome positions provides a powerful means for understanding how the organization of chromatin and the transcription machinery co-evolve. Here we produce a high-resolution reference map of H2A.Z and bulk nucleosome locations across the genome of the fly Drosophila melanogaster and compare it to that from the yeast Saccharomyces cerevisiae. Like Saccharomyces, Drosophila nucleosomes are organized around active transcription start sites in a canonical -1, nucleosome-free region, +1 arrangement. However, Drosophila does not incorporate H2A.Z into the -1 nucleosome and does not bury its transcriptional start site in the +1 nucleosome. At thousands of genes, RNA polymerase II engages the +1 nucleosome and pauses. How the transcription initiation machinery contends with the +1 nucleosome seems to be fundamentally different across major eukaryotic lines.

Original language	English
Pages (from-to)	358-362
Number of pages	5
Journal	Nature
Volume	453
Issue number	7193
DOIs	https://doi.org/10.1038/nature06929
Publication status	Published - May 15 2008
Externally published	Yes

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@article{c261e045a0c44ec3967d75d3c3b3332a,

title = "Nucleosome organization in the Drosophila genome",

abstract = "Comparative genomics of nucleosome positions provides a powerful means for understanding how the organization of chromatin and the transcription machinery co-evolve. Here we produce a high-resolution reference map of H2A.Z and bulk nucleosome locations across the genome of the fly Drosophila melanogaster and compare it to that from the yeast Saccharomyces cerevisiae. Like Saccharomyces, Drosophila nucleosomes are organized around active transcription start sites in a canonical -1, nucleosome-free region, +1 arrangement. However, Drosophila does not incorporate H2A.Z into the -1 nucleosome and does not bury its transcriptional start site in the +1 nucleosome. At thousands of genes, RNA polymerase II engages the +1 nucleosome and pauses. How the transcription initiation machinery contends with the +1 nucleosome seems to be fundamentally different across major eukaryotic lines.",

author = "Mavrich, {Travis N.} and Cizhong Jiang and Ioshikhes, {Ilya P.} and Xiaoyong Li and Venters, {Bryan J.} and Zanton, {Sara J.} and Tomsho, {Lynn P.} and Ji Qi and Glaser, {Robert L.} and Schuster, {Stephan C.} and Gilmour, {David S.} and Istvan Albert and Pugh, {B. Franklin}",

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doi = "10.1038/nature06929",

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AU - Mavrich, Travis N.

AU - Jiang, Cizhong

AU - Ioshikhes, Ilya P.

AU - Li, Xiaoyong

AU - Venters, Bryan J.

AU - Zanton, Sara J.

AU - Tomsho, Lynn P.

AU - Qi, Ji

AU - Glaser, Robert L.

AU - Schuster, Stephan C.

AU - Gilmour, David S.

AU - Albert, Istvan

AU - Pugh, B. Franklin

PY - 2008/5/15

Y1 - 2008/5/15

N2 - Comparative genomics of nucleosome positions provides a powerful means for understanding how the organization of chromatin and the transcription machinery co-evolve. Here we produce a high-resolution reference map of H2A.Z and bulk nucleosome locations across the genome of the fly Drosophila melanogaster and compare it to that from the yeast Saccharomyces cerevisiae. Like Saccharomyces, Drosophila nucleosomes are organized around active transcription start sites in a canonical -1, nucleosome-free region, +1 arrangement. However, Drosophila does not incorporate H2A.Z into the -1 nucleosome and does not bury its transcriptional start site in the +1 nucleosome. At thousands of genes, RNA polymerase II engages the +1 nucleosome and pauses. How the transcription initiation machinery contends with the +1 nucleosome seems to be fundamentally different across major eukaryotic lines.

AB - Comparative genomics of nucleosome positions provides a powerful means for understanding how the organization of chromatin and the transcription machinery co-evolve. Here we produce a high-resolution reference map of H2A.Z and bulk nucleosome locations across the genome of the fly Drosophila melanogaster and compare it to that from the yeast Saccharomyces cerevisiae. Like Saccharomyces, Drosophila nucleosomes are organized around active transcription start sites in a canonical -1, nucleosome-free region, +1 arrangement. However, Drosophila does not incorporate H2A.Z into the -1 nucleosome and does not bury its transcriptional start site in the +1 nucleosome. At thousands of genes, RNA polymerase II engages the +1 nucleosome and pauses. How the transcription initiation machinery contends with the +1 nucleosome seems to be fundamentally different across major eukaryotic lines.

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Nucleosome organization in the Drosophila genome

Abstract

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