Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation

Hengyao Niu; Lihong Wan; Valeria Busygina; Young Ho Kwon; Jasmina A. Allen; Xue Li; Ryan C. Kunz; Kazuishi Kubota; Beatrice Wang; Patrick Sung; Kevan M. Shokat; Steven P. Gygi; Nancy M. Hollingsworth

doi:10.1016/j.molcel.2009.09.029

Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation

Hengyao Niu, Lihong Wan, Valeria Busygina, Young Ho Kwon, Jasmina A. Allen, Xue Li, Ryan C. Kunz, Kazuishi Kubota, Beatrice Wang, Patrick Sung, Kevan M. Shokat, Steven P. Gygi, Nancy M. Hollingsworth

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132 Citas (Scopus)

Resumen

A preference for homologs over sister chromatids in homologous recombination is a fundamental difference in meiotic versus mitotic cells. In budding yeast, the bias for interhomolog recombination in meiosis requires the Dmc1 recombinase and the meiosis-specific kinase Mek1, which suppresses engagement of sister chromatids by the mitotic recombinase Rad51. Here, a combination of proteomic, biochemical, and genetic approaches has identified an additional role for Mek1 in inhibiting the activity of the Rad51 recombinase through phosphorylation of its binding partner, Rad54. Rad54 phosphorylation of threonine 132 attenuates complex formation with Rad51, and a negative charge at this position reduces Rad51 function in vitro and in vivo. Thus, Mek1 phosphorylation provides a dynamic means of controlling recombination partner choice in meiosis in two ways: (1) it reduces Rad51 activity through inhibition of Rad51/Rad54 complex formation, and (2) it suppresses Rad51-mediated strand invasion of sister chromatids via a Rad54-independent mechanism.

Idioma original	English (US)
Páginas (desde-hasta)	393-404
Número de páginas	12
Publicación	Molecular Cell
Volumen	36
N.º	3
DOI	https://doi.org/10.1016/j.molcel.2009.09.029
Estado	Published - nov 13 2009
Publicado de forma externa	Sí

ASJC Scopus subject areas

Molecular Biology
Cell Biology

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title = "Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation",

abstract = "A preference for homologs over sister chromatids in homologous recombination is a fundamental difference in meiotic versus mitotic cells. In budding yeast, the bias for interhomolog recombination in meiosis requires the Dmc1 recombinase and the meiosis-specific kinase Mek1, which suppresses engagement of sister chromatids by the mitotic recombinase Rad51. Here, a combination of proteomic, biochemical, and genetic approaches has identified an additional role for Mek1 in inhibiting the activity of the Rad51 recombinase through phosphorylation of its binding partner, Rad54. Rad54 phosphorylation of threonine 132 attenuates complex formation with Rad51, and a negative charge at this position reduces Rad51 function in vitro and in vivo. Thus, Mek1 phosphorylation provides a dynamic means of controlling recombination partner choice in meiosis in two ways: (1) it reduces Rad51 activity through inhibition of Rad51/Rad54 complex formation, and (2) it suppresses Rad51-mediated strand invasion of sister chromatids via a Rad54-independent mechanism.",

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author = "Hengyao Niu and Lihong Wan and Valeria Busygina and Kwon, {Young Ho} and Allen, {Jasmina A.} and Xue Li and Kunz, {Ryan C.} and Kazuishi Kubota and Beatrice Wang and Patrick Sung and Shokat, {Kevan M.} and Gygi, {Steven P.} and Hollingsworth, {Nancy M.}",

note = "Funding Information: We thank Aaron Neiman for comments on the manuscript and Doug Bishop, Scott Keeney, and Michael Lichten for helpful discussions. Doug Bishop, Mike Dresser, Kurt Runge, and Toshi Tsukiyama generously supplied plasmids or strains. We thank Anglina Kataria for making the rdh54 mutants. This work was supported by NIH grants GM50717 to N.M.H., GM57814 to P.S., HG3456 to S.P.G., and AI44009 to K.M.S. ",

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AU - Niu, Hengyao

AU - Wan, Lihong

AU - Busygina, Valeria

AU - Kwon, Young Ho

AU - Allen, Jasmina A.

AU - Li, Xue

AU - Kunz, Ryan C.

AU - Kubota, Kazuishi

AU - Wang, Beatrice

AU - Sung, Patrick

AU - Shokat, Kevan M.

AU - Gygi, Steven P.

AU - Hollingsworth, Nancy M.

N1 - Funding Information: We thank Aaron Neiman for comments on the manuscript and Doug Bishop, Scott Keeney, and Michael Lichten for helpful discussions. Doug Bishop, Mike Dresser, Kurt Runge, and Toshi Tsukiyama generously supplied plasmids or strains. We thank Anglina Kataria for making the rdh54 mutants. This work was supported by NIH grants GM50717 to N.M.H., GM57814 to P.S., HG3456 to S.P.G., and AI44009 to K.M.S.

PY - 2009/11/13

Y1 - 2009/11/13

N2 - A preference for homologs over sister chromatids in homologous recombination is a fundamental difference in meiotic versus mitotic cells. In budding yeast, the bias for interhomolog recombination in meiosis requires the Dmc1 recombinase and the meiosis-specific kinase Mek1, which suppresses engagement of sister chromatids by the mitotic recombinase Rad51. Here, a combination of proteomic, biochemical, and genetic approaches has identified an additional role for Mek1 in inhibiting the activity of the Rad51 recombinase through phosphorylation of its binding partner, Rad54. Rad54 phosphorylation of threonine 132 attenuates complex formation with Rad51, and a negative charge at this position reduces Rad51 function in vitro and in vivo. Thus, Mek1 phosphorylation provides a dynamic means of controlling recombination partner choice in meiosis in two ways: (1) it reduces Rad51 activity through inhibition of Rad51/Rad54 complex formation, and (2) it suppresses Rad51-mediated strand invasion of sister chromatids via a Rad54-independent mechanism.

AB - A preference for homologs over sister chromatids in homologous recombination is a fundamental difference in meiotic versus mitotic cells. In budding yeast, the bias for interhomolog recombination in meiosis requires the Dmc1 recombinase and the meiosis-specific kinase Mek1, which suppresses engagement of sister chromatids by the mitotic recombinase Rad51. Here, a combination of proteomic, biochemical, and genetic approaches has identified an additional role for Mek1 in inhibiting the activity of the Rad51 recombinase through phosphorylation of its binding partner, Rad54. Rad54 phosphorylation of threonine 132 attenuates complex formation with Rad51, and a negative charge at this position reduces Rad51 function in vitro and in vivo. Thus, Mek1 phosphorylation provides a dynamic means of controlling recombination partner choice in meiosis in two ways: (1) it reduces Rad51 activity through inhibition of Rad51/Rad54 complex formation, and (2) it suppresses Rad51-mediated strand invasion of sister chromatids via a Rad54-independent mechanism.

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Regulation of Meiotic Recombination via Mek1-Mediated Rad54 Phosphorylation

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