Author:
Chung George,Rose Ann M.,Petalcorin Mark I.R.,Martin Julie S.,Kessler Zebulin,Sanchez-Pulido Luis,Ponting Chris P.,Yanowitz Judith L.,Boulton Simon J.
Abstract
The Caenorhabditis elegans gene rec-1 was the first genetic locus identified in metazoa to affect the distribution of meiotic crossovers along the chromosome. We report that rec-1 encodes a distant paralog of HIM-5, which was discovered by whole-genome sequencing and confirmed by multiple genome-edited alleles. REC-1 is phosphorylated by cyclin-dependent kinase (CDK) in vitro, and mutation of the CDK consensus sites in REC-1 compromises meiotic crossover distribution in vivo. Unexpectedly, rec-1; him-5 double mutants are synthetic-lethal due to a defect in meiotic double-strand break formation. Thus, we uncovered an unexpected robustness to meiotic DSB formation and crossover positioning that is executed by HIM-5 and REC-1 and regulated by phosphorylation.
Funder
National Science and Engineering Research Council
Canadian Institutes of Health Research
NSERC
CIHR
University of British Columbia
Medical Research Council
National Institutes of Health
Magee-Womens Research Institute
The Francis Crick Institute
Wellcome Trust
European Research Council
Publisher
Cold Spring Harbor Laboratory
Subject
Developmental Biology,Genetics