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Literature DB >> 11971962

Saccharomyces cerevisiae Mer3 is a DNA helicase involved in meiotic crossing over.

Abstract

Crossing over is regulated to occur at least once per each pair of homologous chromosomes during meiotic prophase to ensure proper segregation of chromosomes at the first meiotic division. In a mer3 deletion mutant of Saccharomyces cerevisiae, crossing over is decreased, and the distribution of the crossovers that occur is random. The predicted Mer3 protein contains seven motifs characteristic of the DExH box type of DNA/RNA helicases. The mer3G166D and the mer3K167A mutation, amino acid substitutions of conserved residues in a putative nucleotide-binding domain of the helicase motifs caused a defect in the transition of meiosis-specific double-strand breaks to later intermediates, decreased crossing over, and reduced crossover interference. The purified Mer3 protein was found to have DNA helicase activity. This helicase activity was reduced by the mer3GD mutation to <1% of the wild-type activity, even though binding of the mutant protein to single- and double-strand DNA was unaffected. The mer3KA mutation eliminated the ATPase activity of the wild-type protein. These results demonstrate that Mer3 is a DNA helicase that functions in meiotic crossing over.

Entities: Gene Species

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Year: 2002 PMID： 11971962 PMCID： PMC133777 DOI： 10.1128/MCB.22.10.3281-3291.2002

Source DB: PubMed Journal: Mol Cell Biol ISSN： 0270-7306 Impact factor: 4.272

64 in total

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23 in total

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Authors: Anna Malkova; Johanna Swanson; Miriam German; John H McCusker; Elizabeth A Housworth; Franklin W Stahl; James E Haber
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Authors: Audrey Lynn; Rachel Soucek; G Valentin Börner
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Authors: Alexandra Pyatnitskaya; Valérie Borde; Arnaud De Muyt
Journal: Chromosoma Date: 2019-06-25 Impact factor: 4.316

7. Regulated Proteolysis of MutSγ Controls Meiotic Crossing Over.

Authors: Wei He; H B D Prasada Rao; Shangming Tang; Nikhil Bhagwat; Dhananjaya S Kulkarni; Yunmei Ma; Maria A W Chang; Christie Hall; Junxi Wang Bragg; Harrison S Manasca; Christa Baker; Gerrik F Verhees; Lepakshi Ranjha; Xiangyu Chen; Nancy M Hollingsworth; Petr Cejka; Neil Hunter
Journal: Mol Cell Date: 2020-03-03 Impact factor: 17.970