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短散在重复序列(SINEs)进化的群体遗传学研究。I. 关于元件存在与否的多态性

A population genetic study of the evolution of SINEs. I. Polymorphism with regard to the presence or absence of an element.

作者信息

Tachida H, Iizuka M

机构信息

National Institute of Genetics, Shizuoka-ken, Japan.

出版信息

Genetics. 1993 Apr;133(4):1023-30. doi: 10.1093/genetics/133.4.1023.

DOI:10.1093/genetics/133.4.1023
PMID:7681799
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1205395/
Abstract

SINEs are short interspersed repeated DNA elements which are considered to spread throughout genomes via RNA intermediates. Polymorphisms with regard to the presence or absence of SINE are occasionally observed in a specific location of a genome. We modeled the evolution of SINEs with regard to this type of polymorphism. Because SINEs are rarely deleted, multiplication of elements is confined to a certain period, and a few master copies are considered to be responsible for their multiplication, the usual population genetic models of transposable elements assuming the equilibrium state are not applicable to describe the evolution of SINEs. Taking into account these properties and assuming selective neutrality, we computed conditional probabilities of finding a SINE at a specific site given that this site is first found because it is occupied by a SINE in an original sample. Using these probabilities, we investigated ways to estimate the multiplication period and infer relationships among populations. The latter inference procedures are shown to be strongly dependent on the multiplication period.

摘要

短散在重复DNA元件(SINEs)是短散布重复DNA元件,被认为通过RNA中间体在整个基因组中扩散。在基因组的特定位置偶尔会观察到关于SINE存在与否的多态性。我们针对这种多态性类型对SINEs的进化进行了建模。由于SINEs很少被删除,元件的增殖局限于特定时期,并且少数主拷贝被认为是其增殖的原因,因此假设处于平衡状态的转座元件的常用群体遗传模型不适用于描述SINEs的进化。考虑到这些特性并假设选择中性,我们计算了在特定位点发现SINE的条件概率,前提是该位点首先被发现是因为它在原始样本中被SINE占据。利用这些概率,我们研究了估计增殖期和推断群体间关系的方法。结果表明,后一种推断程序强烈依赖于增殖期。

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