期刊
NATURE
卷 471, 期 7337, 页码 216-219出版社
NATURE PUBLISHING GROUP
DOI: 10.1038/nature09774
关键词
-
资金
- Bio-X graduate fellowship
- Ruth L. Kirschstein NRSA [1 F32 HD062137-01]
- National Defense Science and Engineering
- Agency of Science, Technology, and Research, Singapore
- Stanford Graduate Fellowship
- Edward Mallinckrodt, Jr. Foundation
- National Institute of Health [R01 HD059862, R01 HG005058, P50 HG002568]
Humans differ from other animals in many aspects of anatomy, physiology, and behaviour; however, the genotypic basis of most human-specific traits remains unknown(1). Recent whole-genome comparisons have made it possible to identify genes with elevated rates of amino acid change or divergent expression in humans, and non-coding sequences with accelerated base pair changes(2-5). Regulatory alterations may be particularly likely to produce phenotypic effects while preserving viability, and are known to underlie interesting evolutionary differences in other species(6-8). Here we identify molecular events particularly likely to produce significant regulatory changes in humans: complete deletion of sequences otherwise highly conserved between chimpanzees and other mammals. We confirm 510 such deletions in humans, which fall almost exclusively in non-coding regions and are enriched near genes involved in steroid hormone signalling and neural function. One deletion removes a sensory vibrissae and penile spine enhancer from the human androgen receptor (AR) gene, a molecular change correlated with anatomical loss of androgen-dependent sensory vibrissae and penile spines in the human lineage(9,10). Another deletion removes a forebrain subventricular zone enhancer near the tumour suppressor gene growth arrest and DNA-damage-inducible, gamma (GADD45G)(11,12), a loss correlated with expansion of specific brain regions in humans. Deletions of tissue-specific enhancers may thus accompany both loss and gain traits in the human lineage, and provide specific examples of the kinds of regulatory alterations(6-8) and inactivation events(13) long proposed to have an important role in human evolutionary divergence.
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