Genetic dissection of crossover mutants defines discrete intermediates in mouse meiosis

Tolkappiyan Premkumar; Lakshmi Paniker; Rhea Kang; Mathilde Biot; Ericka Humphrey; Honorine Destain; Isabella Ferranti; Iyinyeoluwa Okulate; Holly Nguyen; Vindhya Kilaru; Melissa Frasca; Parijat Chakraborty; Francesca Cole

doi:10.1016/j.molcel.2023.07.022

Genetic dissection of crossover mutants defines discrete intermediates in mouse meiosis

Tolkappiyan Premkumar, Lakshmi Paniker, Rhea Kang, Mathilde Biot, Ericka Humphrey, Honorine Destain, Isabella Ferranti, Iyinyeoluwa Okulate, Holly Nguyen, Vindhya Kilaru, Melissa Frasca, Parijat Chakraborty, Francesca Cole

Epigenetics & Molecular Carcinogenesis

Research output: Contribution to journal › Article › peer-review

Abstract

Crossovers (COs), the exchange of homolog arms, are required for accurate chromosome segregation during meiosis. Studies in yeast have described the single-end invasion (SEI) intermediate: a stabilized 3′ end annealed with the homolog as the first detectible CO precursor. SEIs are thought to differentiate into double Holliday junctions (dHJs) that are resolved by MutLgamma (MLH1/MLH3) into COs. Currently, we lack knowledge of early steps of mammalian CO recombination or how intermediates are differentiated in any organism. Using comprehensive analysis of recombination in thirteen different genetic conditions with varying levels of compromised CO resolution, we infer CO precursors include asymmetric SEI-like intermediates and dHJs in mouse. In contrast to yeast, MLH3 is structurally required to differentiate CO precursors into dHJs. We verify conservation of aspects of meiotic recombination and show unique features in mouse, providing mechanistic insight into CO formation.

Original language	English (US)
Pages (from-to)	2941-2958.e7
Journal	Molecular cell
Volume	83
Issue number	16
DOIs	https://doi.org/10.1016/j.molcel.2023.07.022
State	Published - Aug 17 2023

Keywords

crossover
EXO1
HEI10
HFM1
homologous recombination
meiosis
MLH3
mouse
MSH2
MUS81

ASJC Scopus subject areas

Molecular Biology
Cell Biology

MD Anderson CCSG core facilities

Research Animal Support Facility
Science Park Flow Cytometry

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10.1016/j.molcel.2023.07.022

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title = "Genetic dissection of crossover mutants defines discrete intermediates in mouse meiosis",

abstract = "Crossovers (COs), the exchange of homolog arms, are required for accurate chromosome segregation during meiosis. Studies in yeast have described the single-end invasion (SEI) intermediate: a stabilized 3′ end annealed with the homolog as the first detectible CO precursor. SEIs are thought to differentiate into double Holliday junctions (dHJs) that are resolved by MutLgamma (MLH1/MLH3) into COs. Currently, we lack knowledge of early steps of mammalian CO recombination or how intermediates are differentiated in any organism. Using comprehensive analysis of recombination in thirteen different genetic conditions with varying levels of compromised CO resolution, we infer CO precursors include asymmetric SEI-like intermediates and dHJs in mouse. In contrast to yeast, MLH3 is structurally required to differentiate CO precursors into dHJs. We verify conservation of aspects of meiotic recombination and show unique features in mouse, providing mechanistic insight into CO formation.",

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doi = "10.1016/j.molcel.2023.07.022",

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AU - Premkumar, Tolkappiyan

AU - Paniker, Lakshmi

AU - Kang, Rhea

AU - Biot, Mathilde

AU - Humphrey, Ericka

AU - Destain, Honorine

AU - Ferranti, Isabella

AU - Okulate, Iyinyeoluwa

AU - Nguyen, Holly

AU - Kilaru, Vindhya

AU - Frasca, Melissa

AU - Chakraborty, Parijat

AU - Cole, Francesca

PY - 2023/8/17

Y1 - 2023/8/17

N2 - Crossovers (COs), the exchange of homolog arms, are required for accurate chromosome segregation during meiosis. Studies in yeast have described the single-end invasion (SEI) intermediate: a stabilized 3′ end annealed with the homolog as the first detectible CO precursor. SEIs are thought to differentiate into double Holliday junctions (dHJs) that are resolved by MutLgamma (MLH1/MLH3) into COs. Currently, we lack knowledge of early steps of mammalian CO recombination or how intermediates are differentiated in any organism. Using comprehensive analysis of recombination in thirteen different genetic conditions with varying levels of compromised CO resolution, we infer CO precursors include asymmetric SEI-like intermediates and dHJs in mouse. In contrast to yeast, MLH3 is structurally required to differentiate CO precursors into dHJs. We verify conservation of aspects of meiotic recombination and show unique features in mouse, providing mechanistic insight into CO formation.

AB - Crossovers (COs), the exchange of homolog arms, are required for accurate chromosome segregation during meiosis. Studies in yeast have described the single-end invasion (SEI) intermediate: a stabilized 3′ end annealed with the homolog as the first detectible CO precursor. SEIs are thought to differentiate into double Holliday junctions (dHJs) that are resolved by MutLgamma (MLH1/MLH3) into COs. Currently, we lack knowledge of early steps of mammalian CO recombination or how intermediates are differentiated in any organism. Using comprehensive analysis of recombination in thirteen different genetic conditions with varying levels of compromised CO resolution, we infer CO precursors include asymmetric SEI-like intermediates and dHJs in mouse. In contrast to yeast, MLH3 is structurally required to differentiate CO precursors into dHJs. We verify conservation of aspects of meiotic recombination and show unique features in mouse, providing mechanistic insight into CO formation.

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KW - EXO1

KW - HEI10

KW - HFM1

KW - homologous recombination

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KW - MLH3

KW - mouse

KW - MSH2

KW - MUS81

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Genetic dissection of crossover mutants defines discrete intermediates in mouse meiosis

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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