Diagenode

Rapid and ongoing evolution of repetitive sequence structures in humancentromeres.


Suzuki Y. et al.

Our understanding of centromere sequence variation across human populations is limited by its extremely long nested repeat structures called higher-order repeats that are challenging to sequence. Here, we analyzed chromosomes 11, 17, and X using long-read sequencing data for 36 individuals from diverse populations including a Han Chinese trio and 21 Japanese. We revealed substantial structural diversity with many previously unidentified variant higher-order repeats specific to individuals characterizing rapid, haplotype-specific evolution of human centromeric arrays, while frequent single-nucleotide variants are largely conserved. We found a characteristic pattern shared among prevalent variants in human and chimpanzee. Our findings pave the way for studying sequence evolution in human and primate centromeres.

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Published
December, 2020

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  •  DNA Shearing, RNA shearing and Chromatin shearing
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  • Megaruptor 3
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    Megaruptor® 3

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