The synaptonemal complex imposes crossover interference and heterochiasmy inArabidopsis

Author:

Capilla-Pérez LaiaORCID,Durand Stéphanie,Hurel AurélieORCID,Lian QichaoORCID,Chambon Aurélie,Taochy ChristelleORCID,Solier VictorORCID,Grelon MathildeORCID,Mercier RaphaelORCID

Abstract

Meiotic crossovers (COs) have intriguing patterning properties, including CO interference, the tendency of COs to be well-spaced along chromosomes, and heterochiasmy, the marked difference in male and female CO rates. During meiosis, transverse filaments transiently associate the axes of homologous chromosomes, a process called synapsis that is essential for CO formation in many eukaryotes. Here, we describe the spatial organization of the transverse filaments inArabidopsis(ZYP1) and show it to be evolutionary conserved. We show that in the absence of ZYP1 (zyp1azyp1bnull mutants), chromosomes associate in pairs but do not synapse. Unexpectedly, in absence of ZYP1, CO formation is not prevented but increased. Furthermore, genome-wide analysis of recombination revealed that CO interference is abolished, with the frequent observation of close COs. In addition, heterochiasmy was erased, with identical CO rates in males and females. This shows that the tripartite synaptonemal complex is dispensable for CO formation and has a key role in regulating their number and distribution, imposing CO interference and heterochiasmy.

Funder

Agence Nationale de la Recherche

Publisher

Proceedings of the National Academy of Sciences

Subject

Multidisciplinary

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