Emergence of a Homo sapiens-specific gene family and chromosome 16p11.2 CNV susceptibility. Author Xander Nuttle, Giuliana Giannuzzi, Michael Duyzend, Joshua Schraiber, Iñigo Narvaiza, Peter Sudmant, Osnat Penn, Giorgia Chiatante, Maika Malig, John Huddleston, Chris Benner, Francesca Camponeschi, Simone Ciofi-Baffoni, Holly Stessman, Maria Marchetto, Laura Denman, Lana Harshman, Carl Baker, Archana Raja, Kelsi Penewit, Nicolette Janke, Joyce Tang, Mario Ventura, Lucia Banci, Francesca Antonacci, Joshua Akey, Chris Amemiya, Fred Gage, Alexandre Reymond, Evan Eichler Publication Year 2016 Type Journal Article Abstract Genetic differences that specify unique aspects of human evolution have typically been identified by comparative analyses between the genomes of humans and closely related primates, including more recently the genomes of archaic hominins. Not all regions of the genome, however, are equally amenable to such study. Recurrent copy number variation (CNV) at chromosome 16p11.2 accounts for approximately 1% of cases of autism and is mediated by a complex set of segmental duplications, many of which arose recently during human evolution. Here we reconstruct the evolutionary history of the locus and identify bolA family member 2 (BOLA2) as a gene duplicated exclusively in Homo sapiens. We estimate that a 95-kilobase-pair segment containing BOLA2 duplicated across the critical region approximately 282 thousand years ago (ka), one of the latest among a series of genomic changes that dramatically restructured the locus during hominid evolution. All humans examined carried one or more copies of the duplication, which nearly fixed early in the human lineage--a pattern unlikely to have arisen so rapidly in the absence of selection (P < 0.0097). We show that the duplication of BOLA2 led to a novel, human-specific in-frame fusion transcript and that BOLA2 copy number correlates with both RNA expression (r = 0.36) and protein level (r = 0.65), with the greatest expression difference between human and chimpanzee in experimentally derived stem cells. Analyses of 152 patients carrying a chromosome 16p11. rearrangement show that more than 96% of breakpoints occur within the H. sapiens-specific duplication. In summary, the duplicative transposition of BOLA2 at the root of the H. sapiens lineage about 282 ka simultaneously increased copy number of a gene associated with iron homeostasis and predisposed our species to recurrent rearrangements associated with disease. Keywords Animals, Humans, Evolution, Molecular, Species Specificity, Proteins, Time Factors, Iron, Genetic Predisposition to Disease, Homeostasis, Recombination, Genetic, Gene Duplication, DNA Copy Number Variations, Autistic Disorder, Chromosome Breakage, Chromosomes, Human, Pair 16, Pan troglodytes, Pongo Journal Nature Volume 536 Issue 7615 Pages 205-9 Date Published 08/2016 ISSN Number 1476-4687 DOI 10.1038/nature19075 Alternate Journal Nature PMCID PMC4988886 PMID 27487209 PubMedPubMed CentralGoogle ScholarBibTeXEndNote X3 XML