ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress

Research output: Contribution to journalJournal articleResearchpeer-review

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ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress. / Yamada, M.; Watanabe, K.; Mistrik, M.; Vesela, E.; Protivankova, I.; Mailand, N.; Lee, M.H.; Masai, H.; Lukas, J.; Bartek, J.

In: Genes & Development, Vol. 27, No. 22, 15.11.2013, p. 2459-2472.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Yamada, M, Watanabe, K, Mistrik, M, Vesela, E, Protivankova, I, Mailand, N, Lee, MH, Masai, H, Lukas, J & Bartek, J 2013, 'ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress', Genes & Development, vol. 27, no. 22, pp. 2459-2472. https://doi.org/10.1101/gad.224568.113

APA

Yamada, M., Watanabe, K., Mistrik, M., Vesela, E., Protivankova, I., Mailand, N., Lee, M. H., Masai, H., Lukas, J., & Bartek, J. (2013). ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress. Genes & Development, 27(22), 2459-2472. https://doi.org/10.1101/gad.224568.113

Vancouver

Yamada M, Watanabe K, Mistrik M, Vesela E, Protivankova I, Mailand N et al. ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress. Genes & Development. 2013 Nov 15;27(22):2459-2472. https://doi.org/10.1101/gad.224568.113

Author

Yamada, M. ; Watanabe, K. ; Mistrik, M. ; Vesela, E. ; Protivankova, I. ; Mailand, N. ; Lee, M.H. ; Masai, H. ; Lukas, J. ; Bartek, J. / ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress. In: Genes & Development. 2013 ; Vol. 27, No. 22. pp. 2459-2472.

Bibtex

@article{7c645ca64bde48eca1b2a2850ee94e45,
title = "ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress",
abstract = "Cdc7 kinase regulates DNA replication. However, its role in DNA repair and recombination is poorly understood. Here we describe a pathway that stabilizes the human Cdc7-ASK (activator of S-phase kinase; also called Dbf4), its regulation, and its function in cellular responses to compromised DNA replication. Stalled DNA replication evoked stabilization of the Cdc7-ASK (Dbf4) complex in a manner dependent on ATR-Chk1-mediated checkpoint signaling and its interplay with the anaphase-promoting complex/cyclosomeCdh1 (APC/C) ubiquitin ligase. Mechanistically, Chk1 kinase inactivates APC/C through degradation of Cdh1 upon replication block, thereby stabilizing APC/C substrates, including Cdc7-ASK (Dbf4). Furthermore, motif C of ASK (Dbf4) interacts with the N-terminal region of RAD18 ubiquitin ligase, and this interaction is required for chromatin binding of RAD18. Impaired interaction of ASK (Dbf4) with RAD18 disables foci formation by RAD18 and hinders chromatin loading of translesion DNA polymerase h. These findings define a novel mechanism that orchestrates replication checkpoint signaling and ubiquitin-proteasome machinery with the DNA damage bypass pathway to guard against replication collapse under conditions of replication stress.",
author = "M. Yamada and K. Watanabe and M. Mistrik and E. Vesela and I. Protivankova and N. Mailand and M.H. Lee and H. Masai and J. Lukas and J. Bartek",
year = "2013",
month = nov,
day = "15",
doi = "10.1101/gad.224568.113",
language = "English",
volume = "27",
pages = "2459--2472",
journal = "Genes & Development",
issn = "0890-9369",
publisher = "Cold Spring Harbor Laboratory Press",
number = "22",

}

RIS

TY - JOUR

T1 - ATR-Chk1-APC/C-dependent stabilization of Cdc7-ASK (Dbf4) kinase is required for DNA lesion bypass under replication stress

AU - Yamada, M.

AU - Watanabe, K.

AU - Mistrik, M.

AU - Vesela, E.

AU - Protivankova, I.

AU - Mailand, N.

AU - Lee, M.H.

AU - Masai, H.

AU - Lukas, J.

AU - Bartek, J.

PY - 2013/11/15

Y1 - 2013/11/15

N2 - Cdc7 kinase regulates DNA replication. However, its role in DNA repair and recombination is poorly understood. Here we describe a pathway that stabilizes the human Cdc7-ASK (activator of S-phase kinase; also called Dbf4), its regulation, and its function in cellular responses to compromised DNA replication. Stalled DNA replication evoked stabilization of the Cdc7-ASK (Dbf4) complex in a manner dependent on ATR-Chk1-mediated checkpoint signaling and its interplay with the anaphase-promoting complex/cyclosomeCdh1 (APC/C) ubiquitin ligase. Mechanistically, Chk1 kinase inactivates APC/C through degradation of Cdh1 upon replication block, thereby stabilizing APC/C substrates, including Cdc7-ASK (Dbf4). Furthermore, motif C of ASK (Dbf4) interacts with the N-terminal region of RAD18 ubiquitin ligase, and this interaction is required for chromatin binding of RAD18. Impaired interaction of ASK (Dbf4) with RAD18 disables foci formation by RAD18 and hinders chromatin loading of translesion DNA polymerase h. These findings define a novel mechanism that orchestrates replication checkpoint signaling and ubiquitin-proteasome machinery with the DNA damage bypass pathway to guard against replication collapse under conditions of replication stress.

AB - Cdc7 kinase regulates DNA replication. However, its role in DNA repair and recombination is poorly understood. Here we describe a pathway that stabilizes the human Cdc7-ASK (activator of S-phase kinase; also called Dbf4), its regulation, and its function in cellular responses to compromised DNA replication. Stalled DNA replication evoked stabilization of the Cdc7-ASK (Dbf4) complex in a manner dependent on ATR-Chk1-mediated checkpoint signaling and its interplay with the anaphase-promoting complex/cyclosomeCdh1 (APC/C) ubiquitin ligase. Mechanistically, Chk1 kinase inactivates APC/C through degradation of Cdh1 upon replication block, thereby stabilizing APC/C substrates, including Cdc7-ASK (Dbf4). Furthermore, motif C of ASK (Dbf4) interacts with the N-terminal region of RAD18 ubiquitin ligase, and this interaction is required for chromatin binding of RAD18. Impaired interaction of ASK (Dbf4) with RAD18 disables foci formation by RAD18 and hinders chromatin loading of translesion DNA polymerase h. These findings define a novel mechanism that orchestrates replication checkpoint signaling and ubiquitin-proteasome machinery with the DNA damage bypass pathway to guard against replication collapse under conditions of replication stress.

UR - http://www.scopus.com/inward/record.url?scp=84887574546&partnerID=8YFLogxK

U2 - 10.1101/gad.224568.113

DO - 10.1101/gad.224568.113

M3 - Journal article

C2 - 24240236

AN - SCOPUS:84887574546

VL - 27

SP - 2459

EP - 2472

JO - Genes & Development

JF - Genes & Development

SN - 0890-9369

IS - 22

ER -

ID: 88712655