The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast

DNA double-strand breaks (DSBs) can cause chromosomal rearrangements and extensive loss of heterozygosity (LOH), hallmarks of cancer cells. Yet, how such events are normally suppressed is unclear. Here we identify roles for the DNA damage checkpoint pathway in facilitating homologous recombination (...

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Autores principales: Blaikley, Elizabeth J., Tinline-Purvis, Helen, Kasparek, Torben R., Marguerat, Samuel, Sarkar, Sovan, Hulme, Lydia, Hussey, Sharon, Wee, Boon-Yu, Deegan, Rachel S., Walker, Carol A., Pai, Chen-Chun, Bähler, Jürg, Nakagawa, Takuro, Humphrey, Timothy C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2014
Materias:
Genome Integrity, Repair and Replication
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4027169/
https://www.ncbi.nlm.nih.gov/pubmed/24623809
http://dx.doi.org/10.1093/nar/gku190
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author Blaikley, Elizabeth J.
Tinline-Purvis, Helen
Kasparek, Torben R.
Marguerat, Samuel
Sarkar, Sovan
Hulme, Lydia
Hussey, Sharon
Wee, Boon-Yu
Deegan, Rachel S.
Walker, Carol A.
Pai, Chen-Chun
Bähler, Jürg
Nakagawa, Takuro
Humphrey, Timothy C.
author_facet Blaikley, Elizabeth J.
Tinline-Purvis, Helen
Kasparek, Torben R.
Marguerat, Samuel
Sarkar, Sovan
Hulme, Lydia
Hussey, Sharon
Wee, Boon-Yu
Deegan, Rachel S.
Walker, Carol A.
Pai, Chen-Chun
Bähler, Jürg
Nakagawa, Takuro
Humphrey, Timothy C.
author_sort Blaikley, Elizabeth J.
collection PubMed
description DNA double-strand breaks (DSBs) can cause chromosomal rearrangements and extensive loss of heterozygosity (LOH), hallmarks of cancer cells. Yet, how such events are normally suppressed is unclear. Here we identify roles for the DNA damage checkpoint pathway in facilitating homologous recombination (HR) repair and suppressing extensive LOH and chromosomal rearrangements in response to a DSB. Accordingly, deletion of Rad3(ATR), Rad26(ATRIP), Crb2(53BP1) or Cdc25 overexpression leads to reduced HR and increased break-induced chromosome loss and rearrangements. We find the DNA damage checkpoint pathway facilitates HR, in part, by promoting break-induced Cdt2-dependent nucleotide synthesis. We also identify additional roles for Rad17, the 9-1-1 complex and Chk1 activation in facilitating break-induced extensive resection and chromosome loss, thereby suppressing extensive LOH. Loss of Rad17 or the 9-1-1 complex results in a striking increase in break-induced isochromosome formation and very low levels of chromosome loss, suggesting the 9-1-1 complex acts as a nuclease processivity factor to facilitate extensive resection. Further, our data suggest redundant roles for Rad3(ATR) and Exo1 in facilitating extensive resection. We propose that the DNA damage checkpoint pathway coordinates resection and nucleotide synthesis, thereby promoting efficient HR repair and genome stability.
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spelling pubmed-40271692014-05-28 The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast Blaikley, Elizabeth J. Tinline-Purvis, Helen Kasparek, Torben R. Marguerat, Samuel Sarkar, Sovan Hulme, Lydia Hussey, Sharon Wee, Boon-Yu Deegan, Rachel S. Walker, Carol A. Pai, Chen-Chun Bähler, Jürg Nakagawa, Takuro Humphrey, Timothy C. Nucleic Acids Res Genome Integrity, Repair and Replication DNA double-strand breaks (DSBs) can cause chromosomal rearrangements and extensive loss of heterozygosity (LOH), hallmarks of cancer cells. Yet, how such events are normally suppressed is unclear. Here we identify roles for the DNA damage checkpoint pathway in facilitating homologous recombination (HR) repair and suppressing extensive LOH and chromosomal rearrangements in response to a DSB. Accordingly, deletion of Rad3(ATR), Rad26(ATRIP), Crb2(53BP1) or Cdc25 overexpression leads to reduced HR and increased break-induced chromosome loss and rearrangements. We find the DNA damage checkpoint pathway facilitates HR, in part, by promoting break-induced Cdt2-dependent nucleotide synthesis. We also identify additional roles for Rad17, the 9-1-1 complex and Chk1 activation in facilitating break-induced extensive resection and chromosome loss, thereby suppressing extensive LOH. Loss of Rad17 or the 9-1-1 complex results in a striking increase in break-induced isochromosome formation and very low levels of chromosome loss, suggesting the 9-1-1 complex acts as a nuclease processivity factor to facilitate extensive resection. Further, our data suggest redundant roles for Rad3(ATR) and Exo1 in facilitating extensive resection. We propose that the DNA damage checkpoint pathway coordinates resection and nucleotide synthesis, thereby promoting efficient HR repair and genome stability. Oxford University Press 2014-05-01 2014-03-12 /pmc/articles/PMC4027169/ /pubmed/24623809 http://dx.doi.org/10.1093/nar/gku190 Text en © The Author(s) 2014. Published by Oxford University Press. http://creativecommons.org/licenses/by-nc/2.0/uk/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Genome Integrity, Repair and Replication
Blaikley, Elizabeth J.
Tinline-Purvis, Helen
Kasparek, Torben R.
Marguerat, Samuel
Sarkar, Sovan
Hulme, Lydia
Hussey, Sharon
Wee, Boon-Yu
Deegan, Rachel S.
Walker, Carol A.
Pai, Chen-Chun
Bähler, Jürg
Nakagawa, Takuro
Humphrey, Timothy C.
The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title_full The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title_fullStr The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title_full_unstemmed The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title_short The DNA damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
title_sort dna damage checkpoint pathway promotes extensive resection and nucleotide synthesis to facilitate homologous recombination repair and genome stability in fission yeast
topic Genome Integrity, Repair and Replication
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4027169/
https://www.ncbi.nlm.nih.gov/pubmed/24623809
http://dx.doi.org/10.1093/nar/gku190
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