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一种新麦角菌内生菌杂种中核糖体间隔区长度的异常异质性:对协同进化的影响

Extraordinary ribosomal spacer length heterogeneity in a neotyphodium endophyte hybrid: implications for concerted evolution.

作者信息

Ganley A R, Scott B

机构信息

Institute of Molecular BioSciences, Massey University, Palmerston North, New Zealand.

出版信息

Genetics. 1998 Dec;150(4):1625-37. doi: 10.1093/genetics/150.4.1625.

DOI:10.1093/genetics/150.4.1625
PMID:9832538
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1460432/
Abstract

An extraordinary level of length heterogeneity was found in the ribosomal DNA (rDNA) of an asexual hybrid Neotyphodium grass endophyte, isolate Lp1. This hybrid Neotyphodium endophyte is an interspecific hybrid between two grass endophytes, Neotyphodium lolii, and a sexual form, Epichlöe typhina, and the length heterogeneity was not found in either of these progenitor species. The length heterogeneity in the hybrid is localized to the intergenic spacer (IGS) and is the result of copy-number variation of a tandemly repeated subrepeat class within the IGS, the 111-/119-bp subrepeats. Copy number variation of this subrepeat class appears to be a consequence of mitotic unequal crossing over that occurs between these subrepeats. This implies that unequal crossing over plays a role in the concerted evolution of the whole rDNA. Changes in the pattern of IGS length variants occurred in just two rounds of single-spore purification. Analysis of the IGS length heterogeneity revealed features that are unexpected in a simple model of unequal crossing over. Potential refinements of the molecular details of unequal crossing over are presented, and we also discuss evidence for a combination of homogenization mechanisms that drive the concerted evolution of the Lp1 rDNA.

摘要

在一种无性杂交的新麦角菌属禾本科内生真菌Lp1分离株的核糖体DNA(rDNA)中发现了异常高水平的长度异质性。这种杂交新麦角菌属内生真菌是两种禾本科内生真菌——黑麦草内生真菌和有性型黄顶柄锈菌之间的种间杂交产物,而在这两个亲本物种中均未发现长度异质性。杂交种中的长度异质性定位于基因间隔区(IGS),是IGS内串联重复亚重复序列类(111/119碱基对亚重复序列)拷贝数变异的结果。这一亚重复序列类的拷贝数变异似乎是这些亚重复序列之间发生有丝分裂不等交换的结果。这意味着不等交换在整个rDNA的协同进化中起作用。IGS长度变体模式的变化仅在两轮单孢子纯化过程中就发生了。对IGS长度异质性的分析揭示了一些在简单不等交换模型中意想不到的特征。本文提出了对不等交换分子细节的潜在改进,并且我们还讨论了驱动Lp1 rDNA协同进化的均一化机制组合的证据。

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