Abstract
Accurate chromosome segregation requires assembly of the multiprotein kinetochore complex at centromeres. In most eukaryotes, kinetochore assembly is primed by the histone H3 variant CenH3 (also called CENP-A), which physically interacts with components of the inner kinetochore constitutive centromere-associated network (CCAN). Unexpectedly, regarding its critical function, previous work identified that select eukaryotic lineages, including several insects, have lost CenH3 while having retained homologs of the CCAN. These findings imply alternative CCAN assembly pathways in these organisms that function in CenH3-independent manners. Here we study the composition and assembly of CenH3-deficient kinetochores of Lepidoptera (butterflies and moths). We show that lepidopteran kinetochores consist of previously identified CCAN homologs as well as additional components, including a divergent CENP-T homolog, that are required for accurate mitotic progression. Our study focuses on CENP-T, which we found to be sufficient to recruit the Mis12 and Ndc80 outer kinetochore complexes. In addition, CRISPR-mediated gene editing in Bombyx mori establishes an essential function of CENP-T invivo. Finally, the retention of CENP-T and additional CCAN homologs in other independently derived CenH3-deficient insects indicates a conserved mechanism of kinetochore assembly between these lineages. Our study provides the first functional insights into CCAN-based kinetochore assembly pathways that function independently of CenH3, contributing to the emerging picture of an unexpected plasticity to build a kinetochore.
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