Author
Listed:
- Glennis A. Logsdon
(University of Washington School of Medicine)
- Mitchell R. Vollger
(University of Washington School of Medicine)
- PingHsun Hsieh
(University of Washington School of Medicine)
- Yafei Mao
(University of Washington School of Medicine)
- Mikhail A. Liskovykh
(National Cancer Institute)
- Sergey Koren
(National Institutes of Health)
- Sergey Nurk
(National Institutes of Health)
- Ludovica Mercuri
(University of Bari, Aldo Moro)
- Philip C. Dishuck
(University of Washington School of Medicine)
- Arang Rhie
(National Institutes of Health)
- Leonardo G. Lima
(Stowers Institute for Medical Research)
- Tatiana Dvorkina
(Saint Petersburg State University)
- David Porubsky
(University of Washington School of Medicine)
- William T. Harvey
(University of Washington School of Medicine)
- Alla Mikheenko
(Saint Petersburg State University)
- Andrey V. Bzikadze
(University of California, San Diego)
- Milinn Kremitzki
(Washington University School of Medicine)
- Tina A. Graves-Lindsay
(Washington University School of Medicine)
- Chirag Jain
(National Institutes of Health)
- Kendra Hoekzema
(University of Washington School of Medicine)
- Shwetha C. Murali
(University of Washington School of Medicine
University of Washington)
- Katherine M. Munson
(University of Washington School of Medicine)
- Carl Baker
(University of Washington School of Medicine)
- Melanie Sorensen
(University of Washington School of Medicine)
- Alexandra M. Lewis
(University of Washington School of Medicine)
- Urvashi Surti
(University of Pittsburgh)
- Jennifer L. Gerton
(Stowers Institute for Medical Research)
- Vladimir Larionov
(National Cancer Institute)
- Mario Ventura
(University of Bari, Aldo Moro)
- Karen H. Miga
(University of California, Santa Cruz)
- Adam M. Phillippy
(National Institutes of Health)
- Evan E. Eichler
(University of Washington School of Medicine
University of Washington)
Abstract
The complete assembly of each human chromosome is essential for understanding human biology and evolution1,2. Here we use complementary long-read sequencing technologies to complete the linear assembly of human chromosome 8. Our assembly resolves the sequence of five previously long-standing gaps, including a 2.08-Mb centromeric α-satellite array, a 644-kb copy number polymorphism in the β-defensin gene cluster that is important for disease risk, and an 863-kb 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-kb hypomethylated region of diverse higher-order α-satellites enriched with CENP-A nucleosomes, consistent with the location of the kinetochore. In addition, we confirm the overall organization and methylation pattern of the centromere in a diploid human genome. Using a dual long-read sequencing approach, we complete high-quality draft assemblies of the orthologous centromere from chromosome 8 in chimpanzee, orangutan and macaque to reconstruct its evolutionary history. Comparative and phylogenetic analyses show that the higher-order α-satellite structure evolved in the great ape ancestor with a layered symmetry, in which more ancient higher-order repeats locate peripherally to monomeric α-satellites. We estimate that the mutation rate of centromeric satellite DNA is accelerated by more than 2.2-fold compared to the unique portions of the genome, and this acceleration extends into the flanking sequence.
Suggested Citation
Glennis A. Logsdon & Mitchell R. Vollger & PingHsun Hsieh & Yafei Mao & Mikhail A. Liskovykh & Sergey Koren & Sergey Nurk & Ludovica Mercuri & Philip C. Dishuck & Arang Rhie & Leonardo G. Lima & Tatia, 2021.
"The structure, function and evolution of a complete human chromosome 8,"
Nature, Nature, vol. 593(7857), pages 101-107, May.
Handle:
RePEc:nat:nature:v:593:y:2021:i:7857:d:10.1038_s41586-021-03420-7
DOI: 10.1038/s41586-021-03420-7
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Cited by:
- Ayantika Sen Gupta & Chris Seidel & Dai Tsuchiya & Sean McKinney & Zulin Yu & Sarah E. Smith & Jay R. Unruh & Jennifer L. Gerton, 2023.
"Defining a core configuration for human centromeres during mitosis,"
Nature Communications, Nature, vol. 14(1), pages 1-14, December.
- Zhen Teng & Lu Yang & Qian Zhang & Yujue Chen & Xianfeng Wang & Yiran Zheng & Aiguo Tian & Di Tian & Zhen Lin & Wu-Min Deng & Hong Liu, 2024.
"Topoisomerase I is an evolutionarily conserved key regulator for satellite DNA transcription,"
Nature Communications, Nature, vol. 15(1), pages 1-14, December.
- Ting-Ting Li & Tian Xia & Jia-Qi Wu & Hao Hong & Zhao-Lin Sun & Ming Wang & Fang-Rong Ding & Jing Wang & Shuai Jiang & Jin Li & Jie Pan & Guang Yang & Jian-Nan Feng & Yun-Ping Dai & Xue-Min Zhang & Ta, 2023.
"De novo genome assembly depicts the immune genomic characteristics of cattle,"
Nature Communications, Nature, vol. 14(1), pages 1-14, December.
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