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The cohesin complex in mammalian meiosis
Author(s) -
Ishiguro Keiichiro
Publication year - 2019
Publication title -
genes to cells
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.912
H-Index - 115
eISSN - 1365-2443
pISSN - 1356-9597
DOI - 10.1111/gtc.12652
Subject(s) - cohesin , biology , establishment of sister chromatid cohesion , meiosis , chromosome segregation , meiosis ii , sister chromatids , genetics , kinetochore , chromatid , microbiology and biotechnology , mitosis , homologous chromosome , centromere , genetic recombination , chromosome , recombination , gene
Cohesin is an evolutionary conserved multi‐protein complex that plays a pivotal role in chromosome dynamics. It plays a role both in sister chromatid cohesion and in establishing higher order chromosome architecture, in somatic and germ cells. Notably, the cohesin complex in meiosis differs from that in mitosis. In mammalian meiosis, distinct types of cohesin complexes are produced by altering the combination of meiosis‐specific subunits. The meiosis‐specific subunits endow the cohesin complex with specific functions for numerous meiosis‐associated chromosomal events, such as chromosome axis formation, homologue association, meiotic recombination and centromeric cohesion for sister kinetochore geometry. This review mainly focuses on the cohesin complex in mammalian meiosis, pointing out the differences in its roles from those in mitosis. Further, common and divergent aspects of the meiosis‐specific cohesin complex between mammals and other organisms are discussed.