The structure, function, and evolution of a complete human chromosome 8

Author:

Logsdon Glennis A.ORCID,Vollger Mitchell R.ORCID,Hsieh PingHsun,Mao Yafei,Liskovykh Mikhail A.,Koren Sergey,Nurk Sergey,Mercuri Ludovica,Dishuck Philip C.,Rhie Arang,de Lima Leonardo G.,Porubsky David,Bzikadze Andrey V.,Kremitzki Milinn,Graves-Lindsay Tina A.,Jain Chirag,Hoekzema Kendra,Murali Shwetha C.,Munson Katherine M.,Baker Carl,Sorensen Melanie,Lewis Alexandra M.,Surti Urvashi,Gerton Jennifer L.,Larionov Vladimir,Ventura Mario,Miga Karen H.,Phillippy Adam M.,Eichler Evan E.

Abstract

ABSTRACTThe complete assembly of each human chromosome is essential for understanding human biology and evolution. Using complementary long-read sequencing technologies, we complete the first linear assembly of a human autosome, chromosome 8. Our assembly resolves the sequence of five previously long-standing gaps, including a 2.08 Mbp centromeric α-satellite array, a 644 kbp defensin copy number polymorphism important for disease risk, and an 863 kbp variable number tandem repeat at chromosome 8q21.2 that can function as a neocentromere. We show that the centromeric α-satellite array is generally methylated except for a 73 kbp hypomethylated region of diverse higher-order α-satellite enriched with CENP-A nucleosomes, consistent with the location of the kinetochore. Using a dual long-read sequencing approach, we complete the assembly of the orthologous chromosome 8 centromeric regions in chimpanzee, orangutan, and macaque for the first time to reconstruct its evolutionary history. Comparative and phylogenetic analyses show that the higher-order α-satellite structure evolved specifically in the great ape ancestor, and the centromeric region evolved with a layered symmetry, with more ancient higher-order repeats located at the periphery adjacent to monomeric α-satellites. We estimate that the mutation rate of centromeric satellite DNA is accelerated at least 2.2-fold, and this acceleration extends beyond the higher-order α-satellite into the flanking sequence.

Publisher

Cold Spring Harbor Laboratory

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