Currat Mathias, Trabuchet Guy, Rees David, Perrin Pascale, Harding Rosalind M, Clegg John B, Langaney André, Excoffier Laurent
Genetics and Biometry Laboratory, Department of Anthropology and Ecology, University of Geneva, Geneva, Switzerland.
Am J Hum Genet. 2002 Jan;70(1):207-23. doi: 10.1086/338304. Epub 2001 Dec 6.
A large and ethnically well-defined Mandenka sample from eastern Senegal was analyzed for the polymorphism of the beta-globin gene cluster on chromosome 11. Five RFLP sites of the 5' region were investigated in 193 individuals revealing the presence of 10 different haplotypes. The frequency of the sickle-cell anemia causing mutation (beta(S)) in the Mandenka estimated from this sample is 11.7%. This mutation was found strictly associated with the single Senegal haplotype. Approximately 600 bp of the upstream region of the beta-globin gene were sequenced for a subset of 94 chromosomes, showing the presence of four transversions, five transitions, and a composite microsatellite polymorphism. The sequence of 22 beta(S) chromosomes was also identical to the previously defined Senegal haplotype, suggesting that this mutation is very recent. Monte Carlo simulations (allowing for a specific balancing selection model, a logistic growth of the population, and variable initial frequencies of the Senegal haplotype) were used to estimate the age of the beta(S) mutation. Resulting maximum-likelihood estimates are 45-70 generations (1,350-2,100 years) for very different demographic scenarios. Smallest confidence intervals (25-690 generations) are obtained under the hypothesis that the Mandenka population is large (N(e) >5,000) and stationary or that it has undergone a rapid demographic expansion to a current size of >5,000 reproducing individuals, which is quite likely in view of the great diversity found on beta(A) chromosomes.
对来自塞内加尔东部的一个种族界定明确的大型曼丁卡样本进行了11号染色体上β-珠蛋白基因簇多态性分析。在193名个体中研究了5'区域的5个限制性片段长度多态性(RFLP)位点,发现了10种不同的单倍型。根据该样本估算,曼丁卡人中导致镰状细胞贫血的突变(β(S))频率为11.7%。该突变仅与单一的塞内加尔单倍型严格相关。对94条染色体的一个子集的β-珠蛋白基因上游区域约600 bp进行了测序,发现有4个颠换、5个转换和一个复合微卫星多态性。22条β(S)染色体的序列也与先前定义的塞内加尔单倍型相同,表明该突变是非常近期发生的。使用蒙特卡罗模拟(考虑特定的平衡选择模型、种群的逻辑增长以及塞内加尔单倍型的可变初始频率)来估计β(S)突变的发生时间。对于非常不同的人口统计学情景,得到的最大似然估计为45 - 70代(1350 - 2100年)。在曼丁卡种群规模较大(有效种群大小N(e)>5000)且稳定,或者经历了快速人口扩张至当前规模大于5000个繁殖个体的假设下,获得了最小置信区间(25 - 690代),鉴于在β(A)染色体上发现的巨大多样性,这种情况很有可能。