Journal
SCIENCE
Volume 376, Issue 6588, Pages 56-+Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.abl4178
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Funding
- Intramural Research Program of the National Human Genome Research Institute, National Institutes of Health
- National Institute of Standards and Technology
- HHMI Hanna H. Gray Fellowship
- Damon Runyon Postdoctoral Fellowship
- Pew Latin American Fellowship
- US National Institutes of Health [NIH/NIGMS F32 GM134558, NIH/NHGRI R01 GM074728, NIH R01GM123312-02, NIH R21CA240199, NIH/NIGMS R01GM132600, P20GM103546, NIH/NHGRI U24HG010136, NIH/NHGRI R01HG010329, NIH/NHGRI R01HG010485, U41HG010972]
- National Science Foundation [NSF 1613806, NSF 1643825, NSF DBI-1627442, NSF IOS-1732253, NSF IOS-1758800]
- Mark Foundation for Cancer Research [19-033ASP]
- Russian Science Foundation [RSF 19-75-30039]
- St. Petersburg State University [PURE 73023573, PURE 51555639]
- Sirius University
- Ministry of Science and Higher Education of the Russian Federation [075-10-2020-116 (13.1902.21.0023)]
- Connecticut Innovations
- Stowers Institute for Medical Research
- The US National Institutes of Health [NIH R01GM124041, R01GM129263, R21CA238758, NIH/NHGRI R01HG010169, U01HG010971, NIH/NHGRI R21HG010548-01, R01GM117420]
- A US National Institutes of Health [U01HG010961, U24HG011853, OT2OD026682, NIH/GM R35GM139653, NIH R01AG054712, NIH/OD/NIMH DP2MH119424, NIH/NHGRI U24HG010263, NHGRI U24HG006620, NCI U01CA253481, NIDDK R24DK106766-01A1, NIH/NHGRI U41HG007234, NIH/NHGRI R01HG011274-01]
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Current human genome assemblies have neglected repetitive sequences near centromeres, hindering our understanding of their organization and evolution. A new approach has allowed researchers to comprehensively study these sequences, revealing their structural rearrangements and variations.
Existing human genome assemblies have almost entirely excluded repetitive sequences within and near centromeres, limiting our understanding of their organization, evolution, and functions, which include facilitating proper chromosome segregation. Now, a complete, telomere-to-telomere human genome assembly (T2T-CHM13) has enabled us to comprehensively characterize pericentromeric and centromeric repeats, which constitute 6.2% of the genome (189.9 megabases). Detailed maps of these regions revealed multimegabase structural rearrangements, including in active centromeric repeat arrays. Analysis of centromere-associated sequences uncovered a strong relationship between the position of the centromere and the evolution of the surrounding DNA through layered repeat expansions. Furthermore, comparisons of chromosome X centromeres across a diverse panel of individuals illuminated high degrees of structural, epigenetic, and sequence variation in these complex and rapidly evolving regions.
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