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海石竹属(蓝雪科)核糖体内部转录间隔区的精细地理结构、个体内多态性及重组

Fine-scale geographical structure, intra-individual polymorphism and recombination in nuclear ribosomal internal transcribed spacers in Armeria (Plumbaginaceae).

作者信息

Nieto Feliner Gonzalo, Gutiérrez Larena Belén, Fuertes Aguilar Javier

机构信息

Real Jardín Botánico (CSIC), Plaza de Murillo 2, E-28014 Madrid, Spain.

出版信息

Ann Bot. 2004 Feb;93(2):189-200. doi: 10.1093/aob/mch027. Epub 2004 Jan 5.

DOI:10.1093/aob/mch027
PMID:14707002
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4241081/
Abstract

BACKGROUND AND AIMS

Isolation and drift are the main causes for geographic structure of molecular variation. In contrast, the one found in a previous survey in Armeria (Plumbaginaceae) for nuclear ribosomal ITS multicopy regions was species-independent and has been hypothesized to be due to extensive gene-flow and biased concerted evolution. Since this was inferred from a genus-level phylogenetic analysis, the aim of this study was to check for the occurrence of such structure and the validity of the proposed model at a local scale, in a southern Spanish massif (Sierra Nevada), as well as to examine the evolutionary implications at the organism level.

METHODS

In addition to 117 sequences of direct PCR products from genomic DNA, 50 sequences of PCR products from cloned DNA were obtained to analyse cases of intragenomic polymorphisms for the ITS regions.

KEY RESULTS

Sequence data confirm the occurrence of a species-independent structure at a local scale and reveal insights through the analysis of contact areas between different ITS copies (ribotypes). A comparison between cloned and direct sequences (a) confirms that, within these contact areas, ITS copies co-occur both in different individuals and within single genomes; and (b) reveals recombination between different copies.

CONCLUSIONS

This study supports the utility of direct sequences for detecting intra-individual polymorphism and for partially inferring the ITS copies involved, given previous knowledge of the variability. The main evolutionary implication at the organism level is that gene-flow and concerted evolution shape the geographic structure of ITS variation.

摘要

背景与目的

隔离和漂变是分子变异地理结构的主要成因。相比之下,先前对海石竹属(蓝雪科)核糖体 ITS 多拷贝区域的一项调查发现,其地理结构与物种无关,据推测这是由于广泛的基因流和偏向性协同进化所致。鉴于此是从属级系统发育分析中推断出来的,本研究的目的是在西班牙南部地块(内华达山脉)的局部尺度上,检验这种结构的存在情况以及所提出模型的有效性,并在生物体层面研究其进化意义。

方法

除了从基因组 DNA 直接 PCR 产物获得的 117 个序列外,还从克隆 DNA 的 PCR 产物中获得了 50 个序列,以分析 ITS 区域的基因组内多态性情况。

主要结果

序列数据证实了在局部尺度上存在与物种无关的结构,并通过分析不同 ITS 拷贝(核糖型)之间的接触区域揭示了一些见解。克隆序列与直接序列的比较(a)证实,在这些接触区域内,ITS 拷贝在不同个体以及单个基因组内都同时存在;(b)揭示了不同拷贝之间的重组。

结论

鉴于对变异性的先前了解,本研究支持直接序列在检测个体内多态性以及部分推断所涉及的 ITS 拷贝方面的实用性。在生物体层面的主要进化意义是,基因流和协同进化塑造了 ITS 变异的地理结构。

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