DNA damage stabilizes interaction of CSB with the transcription elongation machinery

Vincent Van Den Boom; Elisabetta Citterio; Deborah Hoogstraten; Angelika Zotter; Jean Marc Egly; Wiggert A. Van Cappellen; Jan H.J. Hoeijmakers; Adriaan B. Houtsmuller; Wim Vermeulen

doi:10.1083/jcb.200401056

DNA damage stabilizes interaction of CSB with the transcription elongation machinery

Vincent Van Den Boom
, Elisabetta Citterio
, Deborah Hoogstraten
, Angelika Zotter
, Jean Marc Egly
, Wiggert A. Van Cappellen
, Jan H.J. Hoeijmakers
, Adriaan B. Houtsmuller
, Wim Vermeulen

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

129 Citations (Scopus)

Abstract

The Cockayne syndrome B (CSB) protein is essential for transcription- coupled DNA repair (TCR), which is dependent on RNA polymerase II elongation. TCR is required to quickly remove the cytotoxic transcription-blocking DNA lesions. Functional GFP-tagged CSB, expressed at physiological levels, was homogeneously dispersed throughout the nucleoplasm in addition to bright nuclear foci and nucleolar accumulation. Photobleaching studies showed that GFP-CSB, as part of a high molecular weight complex, transiently interacts with the transcription machinery. Upon (DNA damage-induced) transcription arrest CSB binding these interactions are prolonged, most likely reflecting actual engagement of CSB in TCR. These findings are consistent with a model in which CSB monitors progression of transcription by regularly probing elongation complexes and becomes more tightly associated to these complexes when TCR is active.

Original language	English
Pages (from-to)	27-36
Number of pages	10
Journal	Journal of Cell Biology
Volume	166
Issue number	1
DOIs	https://doi.org/10.1083/jcb.200401056
Publication status	Published - 5 Jul 2004
Externally published	Yes

Keywords

Cockayne syndrome
GFP
Photobleaching studies
TCR

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10.1083/jcb.200401056

Cite this

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title = "DNA damage stabilizes interaction of CSB with the transcription elongation machinery",

abstract = "The Cockayne syndrome B (CSB) protein is essential for transcription- coupled DNA repair (TCR), which is dependent on RNA polymerase II elongation. TCR is required to quickly remove the cytotoxic transcription-blocking DNA lesions. Functional GFP-tagged CSB, expressed at physiological levels, was homogeneously dispersed throughout the nucleoplasm in addition to bright nuclear foci and nucleolar accumulation. Photobleaching studies showed that GFP-CSB, as part of a high molecular weight complex, transiently interacts with the transcription machinery. Upon (DNA damage-induced) transcription arrest CSB binding these interactions are prolonged, most likely reflecting actual engagement of CSB in TCR. These findings are consistent with a model in which CSB monitors progression of transcription by regularly probing elongation complexes and becomes more tightly associated to these complexes when TCR is active.",

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author = "\{Van Den Boom\}, Vincent and Elisabetta Citterio and Deborah Hoogstraten and Angelika Zotter and Egly, \{Jean Marc\} and \{Van Cappellen\}, \{Wiggert A.\} and Hoeijmakers, \{Jan H.J.\} and Houtsmuller, \{Adriaan B.\} and Wim Vermeulen",

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doi = "10.1083/jcb.200401056",

language = "English",

volume = "166",

pages = "27--36",

journal = "Journal of Cell Biology",

issn = "0021-9525",

publisher = "Rockefeller University Press",

number = "1",

}

TY - JOUR

T1 - DNA damage stabilizes interaction of CSB with the transcription elongation machinery

AU - Van Den Boom, Vincent

AU - Citterio, Elisabetta

AU - Hoogstraten, Deborah

AU - Zotter, Angelika

AU - Egly, Jean Marc

AU - Van Cappellen, Wiggert A.

AU - Hoeijmakers, Jan H.J.

AU - Houtsmuller, Adriaan B.

AU - Vermeulen, Wim

PY - 2004/7/5

Y1 - 2004/7/5

N2 - The Cockayne syndrome B (CSB) protein is essential for transcription- coupled DNA repair (TCR), which is dependent on RNA polymerase II elongation. TCR is required to quickly remove the cytotoxic transcription-blocking DNA lesions. Functional GFP-tagged CSB, expressed at physiological levels, was homogeneously dispersed throughout the nucleoplasm in addition to bright nuclear foci and nucleolar accumulation. Photobleaching studies showed that GFP-CSB, as part of a high molecular weight complex, transiently interacts with the transcription machinery. Upon (DNA damage-induced) transcription arrest CSB binding these interactions are prolonged, most likely reflecting actual engagement of CSB in TCR. These findings are consistent with a model in which CSB monitors progression of transcription by regularly probing elongation complexes and becomes more tightly associated to these complexes when TCR is active.

AB - The Cockayne syndrome B (CSB) protein is essential for transcription- coupled DNA repair (TCR), which is dependent on RNA polymerase II elongation. TCR is required to quickly remove the cytotoxic transcription-blocking DNA lesions. Functional GFP-tagged CSB, expressed at physiological levels, was homogeneously dispersed throughout the nucleoplasm in addition to bright nuclear foci and nucleolar accumulation. Photobleaching studies showed that GFP-CSB, as part of a high molecular weight complex, transiently interacts with the transcription machinery. Upon (DNA damage-induced) transcription arrest CSB binding these interactions are prolonged, most likely reflecting actual engagement of CSB in TCR. These findings are consistent with a model in which CSB monitors progression of transcription by regularly probing elongation complexes and becomes more tightly associated to these complexes when TCR is active.

KW - Cockayne syndrome

KW - GFP

KW - Photobleaching studies

KW - TCR

UR - https://www.scopus.com/pages/publications/3142739449

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DO - 10.1083/jcb.200401056

M3 - Article

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AN - SCOPUS:3142739449

SN - 0021-9525

VL - 166

SP - 27

EP - 36

JO - Journal of Cell Biology

JF - Journal of Cell Biology

IS - 1

ER -

DNA damage stabilizes interaction of CSB with the transcription elongation machinery

Abstract

Keywords

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