Literature DB >> 27797818

The MMS22L-TONSL heterodimer directly promotes RAD51-dependent recombination upon replication stress.

Wojciech Piwko1, Lucie J Mlejnkova2, Karun Mutreja2, Lepakshi Ranjha2, Diana Stafa3, Alexander Smirnov2, Mia Ml Brodersen3, Ralph Zellweger2, Andreas Sturzenegger2, Pavel Janscak2, Massimo Lopes2, Matthias Peter1, Petr Cejka4.   

Abstract

Homologous recombination (HR) is a key pathway that repairs DNA double-strand breaks (DSBs) and helps to restart stalled or collapsed replication forks. How HR supports replication upon genotoxic stress is not understood. Using in vivo and in vitro approaches, we show that the MMS22L-TONSL heterodimer localizes to replication forks under unperturbed conditions and its recruitment is increased during replication stress in human cells. MMS22L-TONSL associates with replication protein A (RPA)-coated ssDNA, and the MMS22L subunit directly interacts with the strand exchange protein RAD51. MMS22L is required for proper RAD51 assembly at DNA damage sites in vivo, and HR-mediated repair of stalled forks is abrogated in cells expressing a MMS22L mutant deficient in RAD51 interaction. Similar to the recombination mediator BRCA2, recombinant MMS22L-TONSL limits the assembly of RAD51 on dsDNA, which stimulates RAD51-ssDNA nucleoprotein filament formation and RAD51-dependent strand exchange activity in vitro Thus, by specifically regulating RAD51 activity at uncoupled replication forks, MMS22L-TONSL stabilizes perturbed replication forks by promoting replication fork reversal and stimulating their HR-mediated restart in vivo.
© 2016 The Authors.

Entities:  

Keywords:  DNA repair; DNA replication; DNA replication stress; homologous recombination

Mesh:

Substances:

Year:  2016        PMID: 27797818      PMCID: PMC5283591          DOI: 10.15252/embj.201593132

Source DB:  PubMed          Journal:  EMBO J        ISSN: 0261-4189            Impact factor:   11.598


  48 in total

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2.  The full-length Saccharomyces cerevisiae Sgs1 protein is a vigorous DNA helicase that preferentially unwinds holliday junctions.

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4.  Identification of the breast cancer susceptibility gene BRCA2.

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Journal:  Nature       Date:  1995 Dec 21-28       Impact factor: 49.962

5.  Germline mutations in breast and ovarian cancer pedigrees establish RAD51C as a human cancer susceptibility gene.

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Journal:  Nat Genet       Date:  2010-04-18       Impact factor: 38.330

6.  Human BRCA2 protein promotes RAD51 filament formation on RPA-covered single-stranded DNA.

Authors:  Jie Liu; Tammy Doty; Bryan Gibson; Wolf-Dietrich Heyer
Journal:  Nat Struct Mol Biol       Date:  2010-08-22       Impact factor: 15.369

7.  Rtt101 and Mms1 in budding yeast form a CUL4(DDB1)-like ubiquitin ligase that promotes replication through damaged DNA.

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Journal:  EMBO Rep       Date:  2008-08-15       Impact factor: 8.807

8.  YIpDCE1 - an integrating plasmid for dual constitutive expression in yeast.

Authors:  R Stearman; A Dancis; R D Klausner
Journal:  Gene       Date:  1998-06-08       Impact factor: 3.688

9.  Budding yeast Mms22 and Mms1 regulate homologous recombination induced by replisome blockage.

Authors:  Eris Duro; Jessica A Vaisica; Grant W Brown; John Rouse
Journal:  DNA Repair (Amst)       Date:  2008-03-05

10.  Germline mutation in the RAD51B gene confers predisposition to breast cancer.

Authors:  Lisa Golmard; Virginie Caux-Moncoutier; Grégoire Davy; Essam Al Ageeli; Brigitte Poirot; Carole Tirapo; Dorothée Michaux; Catherine Barbaroux; Catherine Dubois d'Enghien; André Nicolas; Laurent Castéra; Xavier Sastre-Garau; Marc-Henri Stern; Claude Houdayer; Dominique Stoppa-Lyonnet
Journal:  BMC Cancer       Date:  2013-10-19       Impact factor: 4.430
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  28 in total

Review 1.  A tough row to hoe: when replication forks encounter DNA damage.

Authors:  Darshil R Patel; Robert S Weiss
Journal:  Biochem Soc Trans       Date:  2018-12-04       Impact factor: 5.407

2.  The MMS22L-TONSL heterodimer directly promotes RAD51-dependent recombination upon replication stress.

Authors:  Wojciech Piwko; Lucie J Mlejnkova; Karun Mutreja; Lepakshi Ranjha; Diana Stafa; Alexander Smirnov; Mia Ml Brodersen; Ralph Zellweger; Andreas Sturzenegger; Pavel Janscak; Massimo Lopes; Matthias Peter; Petr Cejka
Journal:  EMBO J       Date:  2016-10-26       Impact factor: 11.598

Review 3.  DNA replication through a chromatin environment.

Authors:  James M Bellush; Iestyn Whitehouse
Journal:  Philos Trans R Soc Lond B Biol Sci       Date:  2017-10-05       Impact factor: 6.237

Review 4.  Main steps in DNA double-strand break repair: an introduction to homologous recombination and related processes.

Authors:  Lepakshi Ranjha; Sean M Howard; Petr Cejka
Journal:  Chromosoma       Date:  2018-01-11       Impact factor: 4.316

5.  Bi-allelic Variants in TONSL Cause SPONASTRIME Dysplasia and a Spectrum of Skeletal Dysplasia Phenotypes.

Authors:  Lindsay C Burrage; John J Reynolds; Nissan Vida Baratang; Jennifer B Phillips; Jeremy Wegner; Ashley McFarquhar; Martin R Higgs; Audrey E Christiansen; Denise G Lanza; John R Seavitt; Mahim Jain; Xiaohui Li; David A Parry; Vandana Raman; David Chitayat; Ivan K Chinn; Alison A Bertuch; Lefkothea Karaviti; Alan E Schlesinger; Dawn Earl; Michael Bamshad; Ravi Savarirayan; Harsha Doddapaneni; Donna Muzny; Shalini N Jhangiani; Christine M Eng; Richard A Gibbs; Weimin Bi; Lisa Emrick; Jill A Rosenfeld; John Postlethwait; Monte Westerfield; Mary E Dickinson; Arthur L Beaudet; Emmanuelle Ranza; Celine Huber; Valérie Cormier-Daire; Wei Shen; Rong Mao; Jason D Heaney; Jordan S Orange; Débora Bertola; Guilherme L Yamamoto; Wagner A R Baratela; Merlin G Butler; Asim Ali; Mehdi Adeli; Daniel H Cohn; Deborah Krakow; Andrew P Jackson; Melissa Lees; Amaka C Offiah; Colleen M Carlston; John C Carey; Grant S Stewart; Carlos A Bacino; Philippe M Campeau; Brendan Lee
Journal:  Am J Hum Genet       Date:  2019-02-14       Impact factor: 11.025

6.  Hypomorphic Mutations in TONSL Cause SPONASTRIME Dysplasia.

Authors:  Hae Ryung Chang; Sung Yoon Cho; Jae Hoon Lee; Eunkyung Lee; Jieun Seo; Hye Ran Lee; Denise P Cavalcanti; Outi Mäkitie; Helena Valta; Katta M Girisha; Chung Lee; Kausthubham Neethukrishna; Gandham S Bhavani; Anju Shukla; Sheela Nampoothiri; Shubha R Phadke; Mi Jung Park; Shiro Ikegawa; Zheng Wang; Martin R Higgs; Grant S Stewart; Eunyoung Jung; Myeong-Sok Lee; Jong Hoon Park; Eun A Lee; Hongtae Kim; Kyungjae Myung; Woosung Jeon; Kyoungyeul Lee; Dongsup Kim; Ok-Hwa Kim; Murim Choi; Han-Woong Lee; Yonghwan Kim; Tae-Joon Cho
Journal:  Am J Hum Genet       Date:  2019-02-14       Impact factor: 11.025

Review 7.  Replication Fork Reversal: Players and Guardians.

Authors:  Annabel Quinet; Delphine Lemaçon; Alessandro Vindigni
Journal:  Mol Cell       Date:  2017-12-07       Impact factor: 17.970

Review 8.  RPA and RAD51: fork reversal, fork protection, and genome stability.

Authors:  Kamakoti P Bhat; David Cortez
Journal:  Nat Struct Mol Biol       Date:  2018-05-28       Impact factor: 15.369

9.  Cyclin E Overexpression Sensitizes Triple-Negative Breast Cancer to Wee1 Kinase Inhibition.

Authors:  Xian Chen; Kwang-Huei Low; Angela Alexander; Yufeng Jiang; Cansu Karakas; Kenneth R Hess; Jason P W Carey; Tuyen N Bui; Smruthi Vijayaraghavan; Kurt W Evans; Min Yi; D Christian Ellis; Kwok-Leung Cheung; Ian O Ellis; Siqing Fu; Funda Meric-Bernstam; Kelly K Hunt; Khandan Keyomarsi
Journal:  Clin Cancer Res       Date:  2018-09-04       Impact factor: 12.531

10.  Ubiquitin-mediated DNA damage response is synthetic lethal with G-quadruplex stabilizer CX-5461.

Authors:  Tehmina Masud; Charles Soong; Hong Xu; Justina Biele; Saelin Bjornson; Steven McKinney; Samuel Aparicio
Journal:  Sci Rep       Date:  2021-05-07       Impact factor: 4.379
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