Unknown

Dataset Information

0

Molecular structures of crossover and noncrossover intermediates during gap repair in yeast: implications for recombination.

ABSTRACT: The molecular structures of crossover (CO) and noncrossover (NCO) intermediates were determined by sequencing the products formed when a gapped plasmid was repaired using a diverged chromosomal template. Analyses were done in the absence of mismatch repair (MMR) to allow efficient detection of strand-transfer intermediates, and the results reveal striking differences in the extents and locations of heteroduplex DNA (hDNA) in NCO versus CO products. These data indicate that most NCOs are produced by synthesis-dependent strand annealing rather than by a canonical double-strand break repair pathway and that resolution of Holliday junctions formed as part of the latter pathway is highly constrained to generate CO products. We suggest a model in which the length of hDNA formed by the initiating strand invasion event determines susceptibility of the resulting intermediate to antirecombination and ultimately whether a CO- or a NCO-producing pathway is followed.

SUBMITTER: Mitchel K 

PROVIDER: S-EPMC2865147 | biostudies-literature | 2010 Apr

REPOSITORIES: biostudies-literature

Json Xml
altmetric image

Publications

Molecular structures of crossover and noncrossover intermediates during gap repair in yeast: implications for recombination.

Mitchel Katrina K   Zhang Hengshan H   Welz-Voegele Caroline C   Jinks-Robertson Sue S  

Molecular cell 20100401 2

The molecular structures of crossover (CO) and noncrossover (NCO) intermediates were determined by sequencing the products formed when a gapped plasmid was repaired using a diverged chromosomal template. Analyses were done in the absence of mismatch repair (MMR) to allow efficient detection of strand-transfer intermediates, and the results reveal striking differences in the extents and locations of heteroduplex DNA (hDNA) in NCO versus CO products. These data indicate that most NCOs are produced  ...[more]

Similar Datasets

Unknown Distinct Cdk1 requirements during single-strand annealing, noncrossover, and crossover recombination.
| S-EPMC3161966 | biostudies-literature
Unknown A quantitative assay for crossover and noncrossover molecular events at individual recombination hotspots in both male and female gametes.
| S-EPMC2610674 | biostudies-other
Unknown Transmission distortion affecting human noncrossover but not crossover recombination: a hidden source of meiotic drive.
| S-EPMC3916235 | biostudies-literature
Unknown Removal of N-6-methyladenine by the nucleotide excision repair pathway triggers the repair of mismatches in yeast gap-repair intermediates.
| S-EPMC3858172 | biostudies-literature
Unknown Phosphorylation of the Synaptonemal Complex Protein Zip1 Regulates the Crossover/Noncrossover Decision during Yeast Meiosis.
| S-EPMC4684282 | biostudies-literature
Unknown Local and sex-specific biases in crossover vs. noncrossover outcomes at meiotic recombination hot spots in mice.
| S-EPMC4561481 | biostudies-literature
Unknown mlh3 mutations in baker's yeast alter meiotic recombination outcomes by increasing noncrossover events genome-wide.
| S-EPMC5578695 | biostudies-literature
Genomics A meiotic XPF-ERCC1-like complex recognizes joint molecule recombination intermediates to promote crossover formation
2018-02-14 | GSE103877 | GEO
Unknown The Cdc14 Phosphatase Controls Resolution of Recombination Intermediates and Crossover Formation during Meiosis.
| S-EPMC8470964 | biostudies-literature
Unknown Correction: mlh3 mutations in baker's yeast alter meiotic recombination outcomes by increasing noncrossover events genome-wide.
| S-EPMC5655472 | biostudies-other