Epigenetics of human T cells during the G(0)-> G(1) transition

Alexander E Smith; Constantinos Chronis; Manolis Christodoulakis; Stephen J Orr; Nicholas C Lea; Natalie A Twine; Akshay Bhinge; Ghulam J Mufti; N Shaun B Thomas

doi:10.1101/gr.085530.108

Epigenetics of human T cells during the G(0)-> G(1) transition

Alexander E Smith, Constantinos Chronis, Manolis Christodoulakis, Stephen J Orr, Nicholas C Lea, Natalie A Twine, Akshay Bhinge, Ghulam J Mufti, N Shaun B Thomas

King's College London

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

17 Citations (Scopus)

Abstract

We investigated functional epigenetic changes that occur in primary human T lymphocytes during entry into the cell cycle and mapped these at the single-nucleosome level by ChIP-chip on tiling arrays for chromosomes 1 and 6. We show that nucleosome loss and flanking active histone marks define active transcriptional start sites (TSSs). Moreover, these signatures are already set at many inducible genes in quiescent cells prior to cell stimulation. In contrast, there is a dearth of the inactive histone mark H3K9me3 at the TSS, and under-representation of H3K9me2 and H3K9me3 defines the body of active genes. At the DNA level, cytosine methylation (meC) is enriched for nucleosomes that remain at the TSS, whereas in general there is a dearth of meC at TSSs. Furthermore, a drop in meC also marks 39 transcription termination, and a peak of meC occurs at stop codons. This mimics the 3' nucleosomal distribution in yeast, which we show does not occur in human T cells.

Original language	English
Pages (from-to)	1325 - 1337
Number of pages	13
Journal	Genome Research
Volume	19
Issue number	8
DOIs	https://doi.org/10.1101/gr.085530.108
Publication status	Published - Aug 2009

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title = "Epigenetics of human T cells during the G(0)-> G(1) transition",

abstract = "We investigated functional epigenetic changes that occur in primary human T lymphocytes during entry into the cell cycle and mapped these at the single-nucleosome level by ChIP-chip on tiling arrays for chromosomes 1 and 6. We show that nucleosome loss and flanking active histone marks define active transcriptional start sites (TSSs). Moreover, these signatures are already set at many inducible genes in quiescent cells prior to cell stimulation. In contrast, there is a dearth of the inactive histone mark H3K9me3 at the TSS, and under-representation of H3K9me2 and H3K9me3 defines the body of active genes. At the DNA level, cytosine methylation (meC) is enriched for nucleosomes that remain at the TSS, whereas in general there is a dearth of meC at TSSs. Furthermore, a drop in meC also marks 39 transcription termination, and a peak of meC occurs at stop codons. This mimics the 3' nucleosomal distribution in yeast, which we show does not occur in human T cells.",

author = "Smith, {Alexander E} and Constantinos Chronis and Manolis Christodoulakis and Orr, {Stephen J} and Lea, {Nicholas C} and Twine, {Natalie A} and Akshay Bhinge and Mufti, {Ghulam J} and Thomas, {N Shaun B}",

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AU - Smith, Alexander E

AU - Chronis, Constantinos

AU - Christodoulakis, Manolis

AU - Orr, Stephen J

AU - Lea, Nicholas C

AU - Twine, Natalie A

AU - Bhinge, Akshay

AU - Mufti, Ghulam J

AU - Thomas, N Shaun B

PY - 2009/8

Y1 - 2009/8

N2 - We investigated functional epigenetic changes that occur in primary human T lymphocytes during entry into the cell cycle and mapped these at the single-nucleosome level by ChIP-chip on tiling arrays for chromosomes 1 and 6. We show that nucleosome loss and flanking active histone marks define active transcriptional start sites (TSSs). Moreover, these signatures are already set at many inducible genes in quiescent cells prior to cell stimulation. In contrast, there is a dearth of the inactive histone mark H3K9me3 at the TSS, and under-representation of H3K9me2 and H3K9me3 defines the body of active genes. At the DNA level, cytosine methylation (meC) is enriched for nucleosomes that remain at the TSS, whereas in general there is a dearth of meC at TSSs. Furthermore, a drop in meC also marks 39 transcription termination, and a peak of meC occurs at stop codons. This mimics the 3' nucleosomal distribution in yeast, which we show does not occur in human T cells.

AB - We investigated functional epigenetic changes that occur in primary human T lymphocytes during entry into the cell cycle and mapped these at the single-nucleosome level by ChIP-chip on tiling arrays for chromosomes 1 and 6. We show that nucleosome loss and flanking active histone marks define active transcriptional start sites (TSSs). Moreover, these signatures are already set at many inducible genes in quiescent cells prior to cell stimulation. In contrast, there is a dearth of the inactive histone mark H3K9me3 at the TSS, and under-representation of H3K9me2 and H3K9me3 defines the body of active genes. At the DNA level, cytosine methylation (meC) is enriched for nucleosomes that remain at the TSS, whereas in general there is a dearth of meC at TSSs. Furthermore, a drop in meC also marks 39 transcription termination, and a peak of meC occurs at stop codons. This mimics the 3' nucleosomal distribution in yeast, which we show does not occur in human T cells.

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DO - 10.1101/gr.085530.108

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VL - 19

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EP - 1337

JO - Genome Research

JF - Genome Research

IS - 8

ER -

Epigenetics of human T cells during the G(0)-> G(1) transition

Abstract

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