Young Janet M, Endicott Raelynn M, Parghi Sean S, Walker Megan, Kidd Jeffrey M, Trask Barbara J
Division of Human Biology, Fred Hutchinson Cancer Research Center, Seattle, WA 98109, USA.
Am J Hum Genet. 2008 Aug;83(2):228-42. doi: 10.1016/j.ajhg.2008.07.005.
As much as a quarter of the human genome has been reported to vary in copy number between individuals, including regions containing about half of the members of the olfactory receptor (OR) gene family. We have undertaken a detailed study of copy-number variation of ORs to elucidate the selective and mechanistic forces acting on this gene family and the true impact of copy-number variation on human OR repertoires. We argue that the properties of copy-number variants (CNVs) and other sets of large genomic regions violate the assumptions of statistical methods that are commonly used in the assessment of gene enrichment. Using more appropriate methods, we provide evidence that OR enrichment in CNVs is not due to positive selection but is because of OR preponderance in segmentally duplicated regions, which are known to be frequently copy-number variable, and because purifying selection against CNVs is lower in OR-containing regions than in regions containing essential genes. We also combine multiplex ligation-dependent probe amplification (MLPA) and PCR to assay the copy numbers of 37 candidate CNV ORs in a panel of approximately 50 human individuals. We confirm copy-number variation of 18 ORs but find no variation in this human-diversity panel for 16 other ORs, highlighting the caveat that reported intervals often overrepresent true CNVs. The copy-number variation we describe is likely to underpin significant variation in olfactory abilities among human individuals. Finally, we show that both homology-based and homology-independent processes have played a recent role in remodeling the OR family.
据报道,多达四分之一的人类基因组在个体之间的拷贝数存在差异,包括包含约一半嗅觉受体(OR)基因家族成员的区域。我们对ORs的拷贝数变异进行了详细研究,以阐明作用于该基因家族的选择和机制力量,以及拷贝数变异对人类OR库的真正影响。我们认为,拷贝数变异(CNV)和其他大基因组区域集的特性违反了常用于评估基因富集的统计方法的假设。使用更合适的方法,我们提供的证据表明,CNV中OR的富集不是由于正选择,而是由于OR在片段重复区域中占优势,这些区域已知经常发生拷贝数变异,并且由于对含OR区域的净化选择低于含必需基因的区域。我们还结合多重连接依赖探针扩增(MLPA)和PCR来检测约50个人类个体样本中37个候选CNV ORs的拷贝数。我们确认了18个ORs的拷贝数变异,但在这个人类多样性样本中未发现其他16个ORs的变异,这突出了一个警告,即报告的区间往往高估了真正的CNV。我们描述的拷贝数变异可能是人类个体嗅觉能力显著差异的基础。最后,我们表明基于同源性和不依赖同源性的过程最近都在重塑OR家族中发挥了作用。