Meiotic recombination in Arabidopsis is catalysed by DMC1, with RAD51 playing a supporting role

Recombination establishes the chiasmata that physically link pairs of homologous chromosomes in meiosis, ensuring their balanced segregation at the first meiotic division and generating genetic variation. The visible manifestation of genetic crossing-overs, chiasmata are the result of an intricate a...

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Veröffentlicht in:	PLoS genetics 2013-09, Vol.9 (9), p.e1003787-e1003787
Hauptverfasser:	Da Ines, Olivier, Degroote, Fabienne, Goubely, Chantal, Amiard, Simon, Gallego, Maria E, White, Charles I
Format:	Artikel
Sprache:	eng
Schlagworte:	Arabidopsis Arabidopsis Proteins - genetics Arabidopsis thaliana Cell Cycle Proteins - genetics Chromosomes Chromosomes - genetics Deoxyribonucleic acid DNA DNA Breaks, Double-Stranded DNA repair DNA Repair - genetics DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Genetic aspects Genetic recombination Genetics Life Sciences Meiosis Physiological aspects Rad51 Recombinase - genetics Rec A Recombinases - genetics Recombination, Genetic - genetics Yeast
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creator	Da Ines, Olivier Degroote, Fabienne Goubely, Chantal Amiard, Simon Gallego, Maria E White, Charles I
description	Recombination establishes the chiasmata that physically link pairs of homologous chromosomes in meiosis, ensuring their balanced segregation at the first meiotic division and generating genetic variation. The visible manifestation of genetic crossing-overs, chiasmata are the result of an intricate and tightly regulated process involving induction of DNA double-strand breaks and their repair through invasion of a homologous template DNA duplex, catalysed by RAD51 and DMC1 in most eukaryotes. We describe here a RAD51-GFP fusion protein that retains the ability to assemble at DNA breaks but has lost its DNA break repair capacity. This protein fully complements the meiotic chromosomal fragmentation and sterility of Arabidopsis rad51, but not rad51 dmc1 mutants. Even though DMC1 is the only active meiotic strand transfer protein in the absence of RAD51 catalytic activity, no effect on genetic map distance was observed in complemented rad51 plants. The presence of inactive RAD51 nucleofilaments is thus able to fully support meiotic DSB repair and normal levels of crossing-over by DMC1. Our data demonstrate that RAD51 plays a supporting role for DMC1 in meiotic recombination in the flowering plant, Arabidopsis.
doi_str_mv	10.1371/journal.pgen.1003787
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Chris H.</contributor><creatorcontrib>Da Ines, Olivier ; Degroote, Fabienne ; Goubely, Chantal ; Amiard, Simon ; Gallego, Maria E ; White, Charles I ; Franklin, F. Chris H.</creatorcontrib><description>Recombination establishes the chiasmata that physically link pairs of homologous chromosomes in meiosis, ensuring their balanced segregation at the first meiotic division and generating genetic variation. The visible manifestation of genetic crossing-overs, chiasmata are the result of an intricate and tightly regulated process involving induction of DNA double-strand breaks and their repair through invasion of a homologous template DNA duplex, catalysed by RAD51 and DMC1 in most eukaryotes. We describe here a RAD51-GFP fusion protein that retains the ability to assemble at DNA breaks but has lost its DNA break repair capacity. This protein fully complements the meiotic chromosomal fragmentation and sterility of Arabidopsis rad51, but not rad51 dmc1 mutants. Even though DMC1 is the only active meiotic strand transfer protein in the absence of RAD51 catalytic activity, no effect on genetic map distance was observed in complemented rad51 plants. The presence of inactive RAD51 nucleofilaments is thus able to fully support meiotic DSB repair and normal levels of crossing-over by DMC1. 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Chris H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Meiotic recombination in Arabidopsis is catalysed by DMC1, with RAD51 playing a supporting role</atitle><jtitle>PLoS genetics</jtitle><addtitle>PLoS Genet</addtitle><date>2013-09-01</date><risdate>2013</risdate><volume>9</volume><issue>9</issue><spage>e1003787</spage><epage>e1003787</epage><pages>e1003787-e1003787</pages><issn>1553-7404</issn><issn>1553-7390</issn><eissn>1553-7404</eissn><abstract>Recombination establishes the chiasmata that physically link pairs of homologous chromosomes in meiosis, ensuring their balanced segregation at the first meiotic division and generating genetic variation. The visible manifestation of genetic crossing-overs, chiasmata are the result of an intricate and tightly regulated process involving induction of DNA double-strand breaks and their repair through invasion of a homologous template DNA duplex, catalysed by RAD51 and DMC1 in most eukaryotes. We describe here a RAD51-GFP fusion protein that retains the ability to assemble at DNA breaks but has lost its DNA break repair capacity. This protein fully complements the meiotic chromosomal fragmentation and sterility of Arabidopsis rad51, but not rad51 dmc1 mutants. Even though DMC1 is the only active meiotic strand transfer protein in the absence of RAD51 catalytic activity, no effect on genetic map distance was observed in complemented rad51 plants. The presence of inactive RAD51 nucleofilaments is thus able to fully support meiotic DSB repair and normal levels of crossing-over by DMC1. 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subjects	Arabidopsis Arabidopsis Proteins - genetics Arabidopsis thaliana Cell Cycle Proteins - genetics Chromosomes Chromosomes - genetics Deoxyribonucleic acid DNA DNA Breaks, Double-Stranded DNA repair DNA Repair - genetics DNA-Binding Proteins - genetics DNA-Binding Proteins - metabolism Genetic aspects Genetic recombination Genetics Life Sciences Meiosis Physiological aspects Rad51 Recombinase - genetics Rec A Recombinases - genetics Recombination, Genetic - genetics Yeast
title	Meiotic recombination in Arabidopsis is catalysed by DMC1, with RAD51 playing a supporting role
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