Baye Tesfaye M, Wilke Russell A, Olivier Michael
Division of Asthma Research, Cincinnati Children's Hospital Medical Center, Department of Pediatrics, University of Cincinnati, 3333 Burnet Avenue, Cincinnati, OH 45229, USA.
Per Med. 2009 Nov 1;6(6):623-641. doi: 10.2217/pme.09.54.
Geography-based genetic differentials operating on entire biochemical pathways may reflect different adaptive evolutionary processes that separated populations may have undergone. They may also influence treatment outcome for a variety of drugs - an emerging and important area of study. This research article leverages the International HapMap Consortium data to identify pathway components that differ in genotype frequency for four populations: individuals of Northern European descent from the USA (CEU), individuals from West Africa (YRI), Japan (JPT) and China (CHB). MATERIALS #ENTITYSTARTX00026; METHODS: By identifying loci with fixed or large frequency differences (δ = 1) between paired population samples (CEU vs YRI, CEU vs CHB, CEU vs JPT, YRI vs CHB, YRI vs JPT and CHB vs JPT), and reconstructing the physiological functions of genes at these loci, we report a list of pathways affected by natural selection during human evolution. RESULTS: Of the 3.7 million HapMap SNPs, 463 loci (which mapped to 38 genes) were fixed (δ = 1) in at least one population pair. These private loci included four nonsynonymous coding SNPs: rs4536103 (NEUROG3), rs1385699 (EDA2R), rs11946338 (ARHGAP24) and rs4422842 (CACNA1B). A total of four additional genes demonstrated evidence of recent positive selection: three genes in European subjects (IER5L, NPNT and SESTD1) and a single gene in Asian subjects (EXOC6B). DISCUSSION: Gene ontology and pathway analyses suggest that cellular differentiation, apoptosis and activation of the NF-κB transcription factor vary between populations in genomic regions of fixed (private) SNPs identified in this study. Variability in these pathways may provide important clues into the mechanisms of human adaptation to different environments. An improved understanding of their variability may also help to explain race-specific differences in the treatment outcomes observed for a variety of modern drugs.
作用于整个生化途径的基于地理的遗传差异可能反映了不同人群可能经历的不同适应性进化过程。它们也可能影响多种药物的治疗效果——这是一个新兴且重要的研究领域。本文利用国际人类基因组单体型图计划(International HapMap Consortium)的数据,来确定在四个群体中基因型频率存在差异的途径成分:来自美国的北欧后裔个体(CEU)、来自西非的个体(YRI)、日本(JPT)和中国(CHB)。
通过识别配对群体样本(CEU与YRI、CEU与CHB、CEU与JPT、YRI与CHB、YRI与JPT以及CHB与JPT)之间具有固定或较大频率差异(δ = 1)的基因座,并重建这些基因座处基因的生理功能,我们报告了人类进化过程中受自然选择影响的一系列途径。
在370万个HapMap单核苷酸多态性(SNP)中,463个基因座(映射到38个基因)在至少一对群体中是固定的(δ = 1)。这些特有基因座包括四个非同义编码SNP:rs4536103(NEUROG3)、rs1385699(EDA2R)、rs11946338(ARHGAP24)和rs4422842(CACNA1B)。另外共有四个基因显示出近期正选择的证据:欧洲受试者中的三个基因(IER5L、NPNT和SESTD1)以及亚洲受试者中的一个基因(EXOC6B)。
基因本体论和途径分析表明,在本研究中确定的固定(特有)SNP的基因组区域中,细胞分化、细胞凋亡和NF-κB转录因子的激活在不同群体之间存在差异。这些途径的变异性可能为人类适应不同环境的机制提供重要线索。更好地理解它们的变异性也可能有助于解释在多种现代药物治疗效果中观察到的种族特异性差异。