Accelerated nrDNA evolution and profound AT bias in the medicinal fungus Cordyceps sinensis

Mycological research Pub Date : 2007-04-01 DOI:10.1016/j.mycres.2007.01.015

Øyvind Stensrud , Trond Schumacher , Kamran Shalchian-Tabrizi , Ingeborg Bjorvand Svegården , Håvard Kauserud

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引用次数: 29

Abstract

Cordyceps sinensis is a reputed medicinal fungus growing parasitically on buried larvae of ghost moths in Asian high-altitude grassland ecosystems. We have analysed the intraspecific ITS nrDNA (ITS1, 5.8S gene, ITS2) variation among 71 sequences of C. sinensis available in EMBL/Genbank. The ITS sequences, submitted to Bayesian ML analyses, were distributed into five groups, referred to as A–E. Nine of the sequences (groups D and E) grouped with distantly related hypocrealean/clavicipitalean taxa and are interpreted as sequences erroneously accessioned under wrong taxon names. The remaining 62 sequences constituted three highly supported clades (groups A–C), that may represent cryptic (phylogenetic) species currently ascribed to C. sinensis. A remarkably high sequence divergence occurred in the 5.8S gene between the three groups. Sequences of groups B and C showed accelerated substitution rates and high AT nucleotide bias. We hypothesize that the accelerated evolution and AT bias have been caused by a shift in life historical attributes or ecology. We also suggest that the recorded differences in medicinal effects among C. sinensis populations may be attributed to the existence of genetically differentiated chemotypes in this morphotaxon.

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药用真菌冬虫夏草的nrDNA加速进化和深刻的AT偏差

冬虫夏草(Cordyceps sinensis)是亚洲高海拔草原生态系统中寄生于鬼蛾幼虫上的一种著名的药用真菌。本文对EMBL/Genbank中71条中华按蚊ITS nrDNA (ITS1、5.8S基因、ITS2基因)的种内变异进行了分析。ITS序列提交贝叶斯ML分析，分为五组，称为A-E。其中9个序列(D群和E群)归属于远亲的hypocrealean/clavicipitalean分类群，并被解释为在错误的分类群名称下错误加入的序列。剩下的62个序列构成了3个高度支持的支系(A-C群)，可能代表了目前归属于中华按蚊的隐种(系统发育)。三组间5.8S基因序列差异显著。B组和C组序列显示加速取代率和高AT核苷酸偏倚。我们假设加速进化和AT偏差是由生命历史属性或生态的转变引起的。我们还认为，不同种群间药效的差异可能是由于该形态分类群中存在遗传分化的化学型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Mycological research

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