ABSTRACT Centromeres are specialized genomic regions that are critical for chromosome segregation in eukaryotes. However, how the diversity of centromeres evolved, ranging from localized centromeres in monocentric species to complex chromosome-wide distributed centromere regions in holocentric species, remains elusive. Our cellular and genomic analyses in Timema stick insects reveal that within cell variation of the major centromere protein CenH3 recapitulates the variation typically observed across species. While CenH3-containing nucleosomes are distributed in a monocentric fashion on autosomes and bind tandem repeat sequences specific to individual or small groups of chromosomes, they exhibit a holocentric-like distribution on the sex chromosome and bind to more complex intergenic regions. Despite this contrasting distribution, all chromosomes, including the sex chromosome, attach to spindle microtubules at a single location, marking the first instance of a functionally monocentric species with holocentric-like attributes. Together, our findings highlight the potential for gradual transitions towards holocentricity or CenH3-independent centromere determination, and help to understand the rapid centromere sequence divergence between species.

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