Literature DB >> 28453612

Meiosis-specific proteins MEIOB and SPATA22 cooperatively associate with the single-stranded DNA-binding replication protein A complex and DNA double-strand breaks.

Yang Xu1, Roger A Greenberg2, Ernst Schonbrunn3, P Jeremy Wang1.   

Abstract

Meiotic recombination ensures faithful segregation of homologous chromosomes during meiosis and generates genetic diversity in gametes. MEIOB (meiosis specific with OB domains), a meiosis-specific single-stranded DNA-binding homolog of replication protein A1 (RPA1), is essential for meiotic recombination. Here, we investigated the molecular mechanisms of MEIOB by characterizing its binding partners spermatogenesis associated 22 (SPATA22) and RPA. We find that MEIOB and SPATA22 form an obligate complex and contain defined interaction domains. The interaction between these two proteins is unusual in that nearly any deletion in the binding domains abolishes the interaction. Strikingly, a single residue D383 in MEIOB is indispensable for the interaction. The MEIOB/SPATA22 complex interacts with the RPA heterotrimeric complex in a collaborative manner. Furthermore, MEIOB and SPATA22 are recruited to induced DNA double-strand breaks (DSBs) together but not alone. These results demonstrate the cooperative property of the MEIOB-SPATA22 complex in its interaction with RPA and recruitment to DSBs.
© The Authors 2017. Published by Oxford University Press on behalf of Society for the Study of Reproduction. All rights reserved. For permissions, please journals.permissions@oup.com.

Entities:  

Keywords:  DNA double-strand breaks; MEIOB; RPA; SPATA22; meiosis

Mesh:

Substances:

Year:  2017        PMID: 28453612      PMCID: PMC6355104          DOI: 10.1093/biolre/iox040

Source DB:  PubMed          Journal:  Biol Reprod        ISSN: 0006-3363            Impact factor:   4.161


  43 in total

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Authors:  Timothy Snowden; Samir Acharya; Charles Butz; Mark Berardini; Richard Fishel
Journal:  Mol Cell       Date:  2004-08-13       Impact factor: 17.970

2.  Mutation in Rpa1 results in defective DNA double-strand break repair, chromosomal instability and cancer in mice.

Authors:  Yuxun Wang; Christopher D Putnam; Michael F Kane; Weijia Zhang; Lisa Edelmann; Robert Russell; Danaise V Carrión; Lynda Chin; Raju Kucherlapati; Richard D Kolodner; Winfried Edelmann
Journal:  Nat Genet       Date:  2005-06-19       Impact factor: 38.330

3.  Chromosome synapsis defects and sexually dimorphic meiotic progression in mice lacking Spo11.

Authors:  F Baudat; K Manova; J P Yuen; M Jasin; S Keeney
Journal:  Mol Cell       Date:  2000-11       Impact factor: 17.970

4.  The mouse Spo11 gene is required for meiotic chromosome synapsis.

Authors:  P J Romanienko; R D Camerini-Otero
Journal:  Mol Cell       Date:  2000-11       Impact factor: 17.970

5.  MutS homolog 4 localization to meiotic chromosomes is required for chromosome pairing during meiosis in male and female mice.

Authors:  B Kneitz; P E Cohen; E Avdievich; L Zhu; M F Kane; H Hou; R D Kolodner; R Kucherlapati; J W Pollard; W Edelmann
Journal:  Genes Dev       Date:  2000-05-01       Impact factor: 11.361

6.  The Hop2 and Mnd1 proteins act in concert with Rad51 and Dmc1 in meiotic recombination.

Authors:  Galina V Petukhova; Roberto J Pezza; Filip Vanevski; Mickael Ploquin; Jean-Yves Masson; R Daniel Camerini-Otero
Journal:  Nat Struct Mol Biol       Date:  2005-04-17       Impact factor: 15.369

Review 7.  To err (meiotically) is human: the genesis of human aneuploidy.

Authors:  T Hassold; P Hunt
Journal:  Nat Rev Genet       Date:  2001-04       Impact factor: 53.242

8.  Meiotic arrest and aneuploidy in MLH3-deficient mice.

Authors:  Steven M Lipkin; Peter B Moens; Victoria Wang; Michelle Lenzi; Dakshine Shanmugarajah; Abigail Gilgeous; James Thomas; Jun Cheng; Jeffrey W Touchman; Eric D Green; Pam Schwartzberg; Francis S Collins; Paula E Cohen
Journal:  Nat Genet       Date:  2002-07-01       Impact factor: 38.330

9.  The Mus81/Mms4 endonuclease acts independently of double-Holliday junction resolution to promote a distinct subset of crossovers during meiosis in budding yeast.

Authors:  Teresa de los Santos; Neil Hunter; Cindy Lee; Brittany Larkin; Josef Loidl; Nancy M Hollingsworth
Journal:  Genetics       Date:  2003-05       Impact factor: 4.562

10.  The time course and chromosomal localization of recombination-related proteins at meiosis in the mouse are compatible with models that can resolve the early DNA-DNA interactions without reciprocal recombination.

Authors:  Peter B Moens; Nadine K Kolas; Madalena Tarsounas; Edyta Marcon; Paula E Cohen; Barbara Spyropoulos
Journal:  J Cell Sci       Date:  2002-04-15       Impact factor: 5.285
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  13 in total

1.  Differential expression analysis and identification of sex-related genes by gonad transcriptome sequencing in estradiol-treated and non-treated Ussuri catfish Pseudobagrus ussuriensis.

Authors:  ZhengJun Pan; ChuanKun Zhu; GuoLiang Chang; Nan Wu; HuaiYu Ding; Hui Wang
Journal:  Fish Physiol Biochem       Date:  2021-02-01       Impact factor: 2.794

2.  Unified single-cell analysis of testis gene regulation and pathology in five mouse strains.

Authors:  Min Jung; Daniel Wells; Jannette Rusch; Suhaira Ahmad; Jonathan Marchini; Simon R Myers; Donald F Conrad
Journal:  Elife       Date:  2019-06-25       Impact factor: 8.140

3.  Molecular evolution of the meiotic recombination pathway in mammals.

Authors:  Amy L Dapper; Bret A Payseur
Journal:  Evolution       Date:  2019-11-07       Impact factor: 3.694

4.  shani mutation in mouse affects splicing of Spata22 and leads to impaired meiotic recombination.

Authors:  Cynthia Petrillo; Vilma Barroca; Jonathan Ribeiro; Nathalie Lailler; Gabriel Livera; Scott Keeney; Emmanuelle Martini; Devanshi Jain
Journal:  Chromosoma       Date:  2020-05-10       Impact factor: 4.316

Review 5.  High Resolution View on the Regulation of Recombinase Accumulation in Mammalian Meiosis.

Authors:  Aditya N Mhaskar; Lieke Koornneef; Alex N Zelensky; Adriaan B Houtsmuller; Willy M Baarends
Journal:  Front Cell Dev Biol       Date:  2021-05-24

6.  MORC2B is essential for meiotic progression and fertility.

Authors:  Baolu Shi; Jiangyang Xue; Jian Zhou; Seth D Kasowitz; Yuanwei Zhang; Guanxiang Liang; Yongjuan Guan; Qinghua Shi; Mingxi Liu; Jiahao Sha; Xiaoyan Huang; P Jeremy Wang
Journal:  PLoS Genet       Date:  2018-01-12       Impact factor: 5.917

7.  The Configuration of RPA, RAD51, and DMC1 Binding in Meiosis Reveals the Nature of Critical Recombination Intermediates.

Authors:  Anjali Gupta Hinch; Philipp W Becker; Tao Li; Daniela Moralli; Gang Zhang; Clare Bycroft; Catherine Green; Scott Keeney; Qinghua Shi; Benjamin Davies; Peter Donnelly
Journal:  Mol Cell       Date:  2020-06-30       Impact factor: 17.970

8.  Dual functions for the ssDNA-binding protein RPA in meiotic recombination.

Authors:  Baolu Shi; Jiangyang Xue; Hao Yin; Rui Guo; Mengcheng Luo; Lan Ye; Qinghua Shi; Xiaoyan Huang; Mingxi Liu; Jiahao Sha; P Jeremy Wang
Journal:  PLoS Genet       Date:  2019-02-04       Impact factor: 5.917

9.  SPO16 binds SHOC1 to promote homologous recombination and crossing-over in meiotic prophase I.

Authors:  Qianting Zhang; Shu-Yan Ji; Kiran Busayavalasa; Chao Yu
Journal:  Sci Adv       Date:  2019-01-23       Impact factor: 14.136

10.  Transcriptional progression during meiotic prophase I reveals sex-specific features and X chromosome dynamics in human fetal female germline.

Authors:  Xueying Fan; Ioannis Moustakas; Vanessa Torrens-Juaneda; Qijing Lei; Geert Hamer; Leoni A Louwe; Gonneke S K Pilgram; Karoly Szuhai; Roberto Matorras; Cristina Eguizabal; Lucette van der Westerlaken; Hailiang Mei; Susana M Chuva de Sousa Lopes
Journal:  PLoS Genet       Date:  2021-09-09       Impact factor: 5.917
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