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X连锁基因座的近交有效种群数量和预期纯合度。

The inbreeding effective population number and the expected homozygosity for an X-linked locus.

作者信息

Nagylaki T

出版信息

Genetics. 1981 Mar-Apr;97(3-4):731-7. doi: 10.1093/genetics/97.3-4.731.

DOI:10.1093/genetics/97.3-4.731
PMID:7197653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1214421/
Abstract

Assuming random mating and discrete nonoverlapping generations, the inbreeding effective population number, N(i)e, is calculated for an X-linked locus. For large populations, the result agrees with the variance effective population number. As an application, the maintenance of genetic variability by the joint action of mutation and random drift is investigated. It is shown that, if every allele mutates at rate u to new types, then the probabilities of identify in state (and hence the expected homozygosity of females) converge to the approximate value (1 + 4N(i)eu)-1 at the approximate asymptotic rate exp(-[2u + (2N(i)e)-1]t).

摘要

假设随机交配且世代离散不重叠,针对X连锁基因座计算近亲繁殖有效种群数量N(i)e。对于大种群,结果与方差有效种群数量一致。作为一个应用,研究了突变和随机漂变共同作用下遗传变异性的维持情况。结果表明,如果每个等位基因以速率u突变为新类型,那么状态相同的概率(进而雌性的预期纯合度)以近似渐近速率exp(-[2u + (2N(i)e)-1]t)收敛到近似值(1 + 4N(i)eu)-1。

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Biochem Genet. 1992 Oct;30(9-10):443-53. doi: 10.1007/BF01037585.

本文引用的文献

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Evolution in Mendelian Populations.孟德尔群体中的进化。
Genetics. 1931 Mar;16(2):97-159. doi: 10.1093/genetics/16.2.97.

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