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挪威云杉[欧洲云杉(Picea abies (L.) Karst.)]的核苷酸多样性、连锁不平衡和种群历史的多位点模式

Multilocus patterns of nucleotide diversity, linkage disequilibrium and demographic history of Norway spruce [Picea abies (L.) Karst].

作者信息

Heuertz Myriam, De Paoli Emanuele, Källman Thomas, Larsson Hanna, Jurman Irena, Morgante Michele, Lascoux Martin, Gyllenstrand Niclas

机构信息

Program in Evolutionary Functional Genetics, Evolutionary Biology Centre, Uppsala University, Sweden.

出版信息

Genetics. 2006 Dec;174(4):2095-105. doi: 10.1534/genetics.106.065102. Epub 2006 Oct 22.

Abstract

DNA polymorphism at 22 loci was studied in an average of 47 Norway spruce [Picea abies (L.) Karst.] haplotypes sampled in seven populations representative of the natural range. The overall nucleotide variation was limited, being lower than that observed in most plant species so far studied. Linkage disequilibrium was also restricted and did not extend beyond a few hundred base pairs. All populations, with the exception of the Romanian population, could be divided into two main domains, a Baltico-Nordic and an Alpine one. Mean Tajima's D and Fay and Wu's H across loci were both negative, indicating the presence of an excess of both rare and high-frequency-derived variants compared to the expected frequency spectrum in a standard neutral model. Multilocus neutrality tests based on D and H led to the rejection of the standard neutral model and exponential growth in the whole population as well as in the two main domains. On the other hand, in all three cases the data are compatible with a severe bottleneck occurring some hundreds of thousands of years ago. Hence, demographic departures from equilibrium expectations and population structure will have to be accounted for when detecting selection at candidate genes and in association mapping studies, respectively.

摘要

在代表自然分布范围的七个种群中,对平均47个欧洲云杉[Picea abies (L.) Karst.]单倍型的22个基因座的DNA多态性进行了研究。总体核苷酸变异有限,低于迄今为止研究的大多数植物物种中观察到的变异。连锁不平衡也受到限制,不会延伸超过几百个碱基对。除罗马尼亚种群外,所有种群都可分为两个主要区域,一个是波罗的海-北欧区域,另一个是阿尔卑斯区域。跨基因座的平均 Tajima's D 和 Fay and Wu's H 均为负值,表明与标准中性模型中的预期频率谱相比,稀有和高频衍生变异均过量存在。基于D和H的多位点中性检验导致拒绝标准中性模型以及整个种群和两个主要区域中的指数增长。另一方面,在所有三种情况下,数据都与数十万年前发生的严重瓶颈相符。因此,在候选基因检测和关联作图研究中分别检测选择时,必须考虑偏离平衡预期的人口统计学因素和种群结构。

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