Dynamic interaction of DNA damage checkpoint protein Rad53 with chromatin assembly factor Asf1

Andrew Emili; David M. Schieltz; John R. Yates; Leland H. Hartwell

doi:10.1016/S1097-2765(01)00150-2

Dynamic interaction of DNA damage checkpoint protein Rad53 with chromatin assembly factor Asf1

Andrew Emili, David M. Schieltz, John R. Yates, Leland H. Hartwell

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

147 Scopus citations

Abstract

The evolutionarily conserved yeast checkpoint protein kinase Rad53 regulates cell cycle progression, transcription, and DNA repair in response to DNA damage. To uncover potential regulatory targets of Rad53, we identified proteins physically associated with it in vivo using protein affinity purification and tandem mass spectrometry. Here we report that Rad53 interacts in a dynamic functional manner with Asf1, a chromatin assembly factor recently shown to mediate deposition of acetylated histones H3 and H4 onto newly replicated DNA. Biochemical and molecular genetic studies suggest that Asf1 is an important target of the Rad53-dependent DNA damage response and that Rad53 may directly regulate chromatin assembly during DNA replication and repair.

Original language	English (US)
Pages (from-to)	13-20
Number of pages	8
Journal	Molecular Cell
Volume	7
Issue number	1
DOIs	https://doi.org/10.1016/S1097-2765(01)00150-2
State	Published - 2001
Externally published	Yes

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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10.1016/S1097-2765(01)00150-2

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title = "Dynamic interaction of DNA damage checkpoint protein Rad53 with chromatin assembly factor Asf1",

abstract = "The evolutionarily conserved yeast checkpoint protein kinase Rad53 regulates cell cycle progression, transcription, and DNA repair in response to DNA damage. To uncover potential regulatory targets of Rad53, we identified proteins physically associated with it in vivo using protein affinity purification and tandem mass spectrometry. Here we report that Rad53 interacts in a dynamic functional manner with Asf1, a chromatin assembly factor recently shown to mediate deposition of acetylated histones H3 and H4 onto newly replicated DNA. Biochemical and molecular genetic studies suggest that Asf1 is an important target of the Rad53-dependent DNA damage response and that Rad53 may directly regulate chromatin assembly during DNA replication and repair.",

author = "Andrew Emili and Schieltz, {David M.} and Yates, {John R.} and Hartwell, {Leland H.}",

note = "Funding Information: We thank E. Foss, P. Paddison, D. Galgoczy, A. Bedalov, D. Toczyski, J. Hartman, B. Garvik, D. Gottschling, J. Sidarova, J. Cooper, M. Groudine, and D. Gottschling for help and advice. We also thank N. Terzopolous, R. Sternglanz, and D. Gottschling for providing reagents. This work was performed in part at the NCRR NIH Yeast Resource Center at the University of Washington (NIH grant PHS# P41 RR11823) and was supported by a fellowship from the Damon Runyon-Walter Winchell Foundation to A. E., grants R37-GM17709 and 11823-02 from the NIH to L. H. H. and J. R. Y., and grant BIR9214821AM from the NSF Science and Technology Center to J. R. Y.",

year = "2001",

doi = "10.1016/S1097-2765(01)00150-2",

language = "English (US)",

volume = "7",

pages = "13--20",

journal = "Molecular Cell",

issn = "1097-2765",

publisher = "Cell Press",

number = "1",

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T1 - Dynamic interaction of DNA damage checkpoint protein Rad53 with chromatin assembly factor Asf1

AU - Emili, Andrew

AU - Schieltz, David M.

AU - Yates, John R.

AU - Hartwell, Leland H.

N1 - Funding Information: We thank E. Foss, P. Paddison, D. Galgoczy, A. Bedalov, D. Toczyski, J. Hartman, B. Garvik, D. Gottschling, J. Sidarova, J. Cooper, M. Groudine, and D. Gottschling for help and advice. We also thank N. Terzopolous, R. Sternglanz, and D. Gottschling for providing reagents. This work was performed in part at the NCRR NIH Yeast Resource Center at the University of Washington (NIH grant PHS# P41 RR11823) and was supported by a fellowship from the Damon Runyon-Walter Winchell Foundation to A. E., grants R37-GM17709 and 11823-02 from the NIH to L. H. H. and J. R. Y., and grant BIR9214821AM from the NSF Science and Technology Center to J. R. Y.

PY - 2001

Y1 - 2001

N2 - The evolutionarily conserved yeast checkpoint protein kinase Rad53 regulates cell cycle progression, transcription, and DNA repair in response to DNA damage. To uncover potential regulatory targets of Rad53, we identified proteins physically associated with it in vivo using protein affinity purification and tandem mass spectrometry. Here we report that Rad53 interacts in a dynamic functional manner with Asf1, a chromatin assembly factor recently shown to mediate deposition of acetylated histones H3 and H4 onto newly replicated DNA. Biochemical and molecular genetic studies suggest that Asf1 is an important target of the Rad53-dependent DNA damage response and that Rad53 may directly regulate chromatin assembly during DNA replication and repair.

AB - The evolutionarily conserved yeast checkpoint protein kinase Rad53 regulates cell cycle progression, transcription, and DNA repair in response to DNA damage. To uncover potential regulatory targets of Rad53, we identified proteins physically associated with it in vivo using protein affinity purification and tandem mass spectrometry. Here we report that Rad53 interacts in a dynamic functional manner with Asf1, a chromatin assembly factor recently shown to mediate deposition of acetylated histones H3 and H4 onto newly replicated DNA. Biochemical and molecular genetic studies suggest that Asf1 is an important target of the Rad53-dependent DNA damage response and that Rad53 may directly regulate chromatin assembly during DNA replication and repair.

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Dynamic interaction of DNA damage checkpoint protein Rad53 with chromatin assembly factor Asf1

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