BRCA1/BRC-1 and SMC-5/6 regulate DNA repair pathway engagement during meiosis.

The preservation of genome integrity during sperm and egg development is vital for reproductive success. During meiosis, the tumor suppressor BRCA1/BRC-1 and structural maintenance of chromosomes 5/6 (SMC-5/6) complex genetically interact to promote high fidelity DNA double strand break (DSB) repair, but the specific DSB repair outcomes these proteins regulate remain unknown. Using genetic and cytological methods to monitor resolution of DSBs with different repair partners in , we demonstrate that both BRC-1 and SMC-5 repress intersister crossover recombination events.

Automated and customizable quantitative image analysis of whole Caenorhabditis elegans germlines.

Arranged in a spatial-temporal gradient for germ cell development, the adult germline of Caenorhabditis elegans is an excellent system for understanding the generation, differentiation, function, and maintenance of germ cells. Imaging whole C. elegans germlines along the distal-proximal axis enables powerful cytological analyses of germ cell nuclei as they progress from the pre-meiotic tip through all the stages of meiotic prophase I.

Elevated Temperatures Cause Transposon-Associated DNA Damage in C. elegans Spermatocytes.

Sexually reproducing organisms use meiosis to generate haploid gametes and faithfully transmit their genome to the next generation. In comparison to oogenesis in many organisms, spermatogenesis is particularly sensitive to small temperature fluctuations, and spermatocytes must develop within a very narrow isotherm [1-4]. Although failure to thermoregulate spermatogenetic tissue and prolonged exposure to elevated temperatures are linked to male infertility in several organisms, the mechanisms of temperature-induced male infertility have not been fully elucidated [5].