An evolutionarily 'young' lysine residue in histone h3 attenuates transcriptional output in saccharomyces cerevisiae

Edel M. Hyland; Henrik Molina; Kunal Poorey; Chunfa Jie; Zhi Xie; Junbiao Dai; Jiang Qian; Stefan Bekiranov; David T. Auble; Akhilesh Pandey; Jef D. Boeke

doi:10.1101/gad.2050311

An evolutionarily 'young' lysine residue in histone h3 attenuates transcriptional output in saccharomyces cerevisiae

Edel M. Hyland, Henrik Molina, Kunal Poorey, Chunfa Jie, Zhi Xie, Junbiao Dai, Jiang Qian, Stefan Bekiranov, David T. Auble, Akhilesh Pandey, Jef D. Boeke

Laboratory Medicine and Pathology

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

17 Scopus citations

Abstract

The DNA entry and exit points on the nucleosome core regulate the initial invasion of the nucleosome by factors requiring access to the underlying DNA. Here we describe in vivo consequences of eliminating a single proteinDNA interaction at this position through mutagenesis of histone H3 Lys 42 to alanine. This substitution has a dramatic effect on the Saccharomyces cerevisiae transcriptome in both the transcriptional output and landscape of mRNA species produced. We attribute this in part to decreased histone H3 occupancy at transcriptionally active loci, leading to enhanced elongation. Additionally we show that this lysine is methylated in vivo, and genetic studies of methyl-lysine mimics suggest that this modification may be crucial in attenuating gene expression. Interestingly, this site of methylation is unique to Ascomycota, suggesting a recent evolutionary innovation that highlights the evolvability of post-translational modifications of chromatin.

Original language	English (US)
Pages (from-to)	1306-1319
Number of pages	14
Journal	Genes and Development
Volume	25
Issue number	12
DOIs	https://doi.org/10.1101/gad.2050311
State	Published - Jun 15 2011

Keywords

Evolution
Histone methylation
Transcription elongation
Transcriptional output
Yeast

ASJC Scopus subject areas

Genetics
Developmental Biology

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10.1101/gad.2050311

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title = "An evolutionarily 'young' lysine residue in histone h3 attenuates transcriptional output in saccharomyces cerevisiae",

abstract = "The DNA entry and exit points on the nucleosome core regulate the initial invasion of the nucleosome by factors requiring access to the underlying DNA. Here we describe in vivo consequences of eliminating a single proteinDNA interaction at this position through mutagenesis of histone H3 Lys 42 to alanine. This substitution has a dramatic effect on the Saccharomyces cerevisiae transcriptome in both the transcriptional output and landscape of mRNA species produced. We attribute this in part to decreased histone H3 occupancy at transcriptionally active loci, leading to enhanced elongation. Additionally we show that this lysine is methylated in vivo, and genetic studies of methyl-lysine mimics suggest that this modification may be crucial in attenuating gene expression. Interestingly, this site of methylation is unique to Ascomycota, suggesting a recent evolutionary innovation that highlights the evolvability of post-translational modifications of chromatin.",

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AU - Hyland, Edel M.

AU - Molina, Henrik

AU - Poorey, Kunal

AU - Jie, Chunfa

AU - Xie, Zhi

AU - Dai, Junbiao

AU - Qian, Jiang

AU - Bekiranov, Stefan

AU - Auble, David T.

AU - Pandey, Akhilesh

AU - Boeke, Jef D.

PY - 2011/6/15

Y1 - 2011/6/15

N2 - The DNA entry and exit points on the nucleosome core regulate the initial invasion of the nucleosome by factors requiring access to the underlying DNA. Here we describe in vivo consequences of eliminating a single proteinDNA interaction at this position through mutagenesis of histone H3 Lys 42 to alanine. This substitution has a dramatic effect on the Saccharomyces cerevisiae transcriptome in both the transcriptional output and landscape of mRNA species produced. We attribute this in part to decreased histone H3 occupancy at transcriptionally active loci, leading to enhanced elongation. Additionally we show that this lysine is methylated in vivo, and genetic studies of methyl-lysine mimics suggest that this modification may be crucial in attenuating gene expression. Interestingly, this site of methylation is unique to Ascomycota, suggesting a recent evolutionary innovation that highlights the evolvability of post-translational modifications of chromatin.

AB - The DNA entry and exit points on the nucleosome core regulate the initial invasion of the nucleosome by factors requiring access to the underlying DNA. Here we describe in vivo consequences of eliminating a single proteinDNA interaction at this position through mutagenesis of histone H3 Lys 42 to alanine. This substitution has a dramatic effect on the Saccharomyces cerevisiae transcriptome in both the transcriptional output and landscape of mRNA species produced. We attribute this in part to decreased histone H3 occupancy at transcriptionally active loci, leading to enhanced elongation. Additionally we show that this lysine is methylated in vivo, and genetic studies of methyl-lysine mimics suggest that this modification may be crucial in attenuating gene expression. Interestingly, this site of methylation is unique to Ascomycota, suggesting a recent evolutionary innovation that highlights the evolvability of post-translational modifications of chromatin.

KW - Evolution

KW - Histone methylation

KW - Transcription elongation

KW - Transcriptional output

KW - Yeast

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An evolutionarily 'young' lysine residue in histone h3 attenuates transcriptional output in saccharomyces cerevisiae

Abstract

Keywords

ASJC Scopus subject areas

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