Williams, S.; McKown, G.; Yu, Z.; Staber, C.; Gibson, M.; Hawley, R. S.

In Drosophila melanogaster females, as in most organisms, the segregation of meiotic chromosomes depends on the proper distribution of crossovers along paired maternal and paternal chromosomes. In most cases, crossovers require the synaptonemal complex (SC), a conserved multi-protein structure that forms between homologous chromosomes in meiotic prophase I. Recent studies leveraging hypomorphic alleles suggest that the SC plays a more direct role in the distribution of crossover events. However, identifying additional hypomorphic mutations that avoid catastrophic phenotypes by partially disrupting the SC has been challenging. Here, to create a new hypomorphic allele of the D. melanogaster SC gene corolla, we used CRISPR/Cas9 to replace it with the coding sequence of its Drosophila mauritiana ortholog, yielding corollamau. Since the amino acid sequence of SC proteins is rapidly diverging while maintaining the general tripartite structure of the SC, we hypothesized that this replacement would enable the assembly of the SC but show defects in crossover distribution. Indeed, at 25 {degrees}C corollamau homozygous females exhibited full-length SC with defects in SC maintenance and crossover formation, resulting in moderate levels of chromosome missegregation. At 18 {degrees}C, SC maintenance was rescued, and recombination rates were improved, although they remained significantly lower than observed in wild type. Importantly, these phenotypes are less severe than observed in corolla null mutant flies, suggesting corollamau is a hypomorphic allele. Unexpectedly, in homozygotes we also observed unique polycomplexes composed of the SC proteins Corolla and Corona but lacking the transverse filament protein C(3)G. Overall, we report a novel hypomorphic allele of corolla that will enable future studies on the role of the SC in crossover distribution. Further, the unique polycomplexes found in mutant flies may provide new insights into SC protein-protein interactions and SC architecture.