Chromatin dynamics is correlated with replication timing

Artem Pliss; Kishore Malyavantham; Sambit Bhattacharya; Michael Zeitz; Ronald Berezney

doi:10.1007/s00412-009-0208-6

Chromatin dynamics is correlated with replication timing

Artem Pliss
, Kishore Malyavantham
, Sambit Bhattacharya
, Michael Zeitz
, Ronald Berezney

SUNY Buffalo
IMMCO Diagnostics Inc.
Fayetteville State University

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

20 Scopus citations

Abstract

Discrete chromatin domains (ChrD), containing an average of ∼1 Mbp DNA, represent the basic structural units for the regulation of DNA organization and replication in situ. In this study, a bio-computational approach is employed to simultaneously measure the translational motion of large populations of ChrD in the cell nucleus of living cells. Both movement and configurational changes are strikingly higher in early S-phase replicating ChrD compared to those that replicate in mid and late S-phase. The chromatin dynamics was not sensitive to transcription inhibition by α-amanitin but was significantly reduced by actinomycin D treatment. Since a majority of active genes replicate in early S-phase, our results suggest a correlation between levels of chromatin dynamics and chromatin poised for active transcription. Analysis of ChrD colocalization with transcription sites and cDNA with ChrD and transcription sites further supports this proposal.

Original language	English
Pages (from-to)	459-470
Number of pages	12
Journal	Chromosoma
Volume	118
Issue number	4
DOIs	https://doi.org/10.1007/s00412-009-0208-6
State	Published - 2009

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title = "Chromatin dynamics is correlated with replication timing",

abstract = "Discrete chromatin domains (ChrD), containing an average of ∼1 Mbp DNA, represent the basic structural units for the regulation of DNA organization and replication in situ. In this study, a bio-computational approach is employed to simultaneously measure the translational motion of large populations of ChrD in the cell nucleus of living cells. Both movement and configurational changes are strikingly higher in early S-phase replicating ChrD compared to those that replicate in mid and late S-phase. The chromatin dynamics was not sensitive to transcription inhibition by α-amanitin but was significantly reduced by actinomycin D treatment. Since a majority of active genes replicate in early S-phase, our results suggest a correlation between levels of chromatin dynamics and chromatin poised for active transcription. Analysis of ChrD colocalization with transcription sites and cDNA with ChrD and transcription sites further supports this proposal.",

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AU - Pliss, Artem

AU - Malyavantham, Kishore

AU - Bhattacharya, Sambit

AU - Zeitz, Michael

AU - Berezney, Ronald

PY - 2009

Y1 - 2009

N2 - Discrete chromatin domains (ChrD), containing an average of ∼1 Mbp DNA, represent the basic structural units for the regulation of DNA organization and replication in situ. In this study, a bio-computational approach is employed to simultaneously measure the translational motion of large populations of ChrD in the cell nucleus of living cells. Both movement and configurational changes are strikingly higher in early S-phase replicating ChrD compared to those that replicate in mid and late S-phase. The chromatin dynamics was not sensitive to transcription inhibition by α-amanitin but was significantly reduced by actinomycin D treatment. Since a majority of active genes replicate in early S-phase, our results suggest a correlation between levels of chromatin dynamics and chromatin poised for active transcription. Analysis of ChrD colocalization with transcription sites and cDNA with ChrD and transcription sites further supports this proposal.

AB - Discrete chromatin domains (ChrD), containing an average of ∼1 Mbp DNA, represent the basic structural units for the regulation of DNA organization and replication in situ. In this study, a bio-computational approach is employed to simultaneously measure the translational motion of large populations of ChrD in the cell nucleus of living cells. Both movement and configurational changes are strikingly higher in early S-phase replicating ChrD compared to those that replicate in mid and late S-phase. The chromatin dynamics was not sensitive to transcription inhibition by α-amanitin but was significantly reduced by actinomycin D treatment. Since a majority of active genes replicate in early S-phase, our results suggest a correlation between levels of chromatin dynamics and chromatin poised for active transcription. Analysis of ChrD colocalization with transcription sites and cDNA with ChrD and transcription sites further supports this proposal.

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SN - 0009-5915

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JO - Chromosoma

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Chromatin dynamics is correlated with replication timing

Abstract

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