The evolution and population diversity of human-specific segmental duplications

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作者
Megan Y. Dennis
Lana Harshman
Bradley J. Nelson
Osnat Penn
Stuart Cantsilieris
John Huddleston
Francesca Antonacci
Kelsi Penewit
Laura Denman
Archana Raja
Carl Baker
Kenneth Mark
Maika Malig
Nicolette Janke
Claudia Espinoza
Holly A. F. Stessman
Xander Nuttle
Kendra Hoekzema
Tina A. Lindsay-Graves
Richard K. Wilson
Evan E. Eichler
机构
[1] Genome Center,and Department of Biochemistry & Molecular Medicine
[2] MIND Institute,Department of Genome Sciences
[3] University of California,Dipartimento di Biologia
[4] University of Washington School of Medicine,undefined
[5] Howard Hughes Medical Institute,undefined
[6] University of Washington,undefined
[7] Università degli Studi di Bari “Aldo Moro”,undefined
[8] McDonnell Genome Institute at Washington University,undefined
[9] Washington University School of Medicine,undefined
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Nature Ecology & Evolution | / 1卷
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摘要
Segmental duplications contribute to human evolution, adaptation and genomic instability but are often poorly characterized. We investigate the evolution, genetic variation and coding potential of human-specific segmental duplications (HSDs). We identify 218 HSDs based on analysis of 322 deeply sequenced archaic and contemporary hominid genomes. We sequence 550 human and nonhuman primate genomic clones to reconstruct the evolution of the largest, most complex regions with protein-coding potential (N = 80 genes from 33 gene families). We show that HSDs are non-randomly organized, associate preferentially with ancestral ape duplications termed ‘core duplicons’ and evolved primarily in an interspersed inverted orientation. In addition to Homo sapiens-specific gene expansions (such as TCAF1/TCAF2), we highlight ten gene families (for example, ARHGAP11B and SRGAP2C) where copy number never returns to the ancestral state, there is evidence of mRNA splicing and no common gene-disruptive mutations are observed in the general population. Such duplicates are candidates for the evolution of human-specific adaptive traits.
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