Although associated with all plants, fungal endophytes (microfungi that live within healthy plant tissues) represent an unknown proportion of fungal diversity. While there is a growing appreciation of their ecological importance and human uses, little is known about their host specificity, geographic structure, or phylogenetic relationships. We surveyed endophytic Ascomycota from healthy photosynthetic tissues of three plant species (Huperzia selago, Picea mariana, and Dryas integrifolia, representing lycophytes, conifers, and angiosperms, respectively) in northern and southern boreal forest (Québec, Canada) and arctic tundra (Nunavut, Canada). Endophytes were recovered from all plant species surveyed, and were present in <1-41% of 2 mm2 tissue segments examined per host species. Sequence data from the nuclear ribosomal internal transcribed spacer region (ITS) were obtained for 280 of 558 isolates. Species-accumulation curves based on ITS genotypes remained non-asymptotic, and bootstrap analyses indicated that a large number of genotypes remain to be found. The majority of genotypes were recovered from only a single host species, and only 6% of genotypes were shared between boreal and arctic communities. Two independent Bayesian analyses and a neighbor-joining bootstrapping analysis of combined data from the nuclear large and small ribosomal subunits (LSUrDNA, SSUrDNA; 2.4 kb) showed that boreal and arctic endophytes represent Dothideomycetes, Sordariomycetes, Chaetothyriomycetidae, Leotiomycetes, and Pezizomycetes. Many well-supported phylotypes contained only endophytes despite exhaustive sampling of available sequences of Ascomycota. Together, these data demonstrate greater than expected diversity of endophytes at high-latitude sites and provide a framework for assessing the evolution of these poorly known but ubiquitous symbionts of living plants.

译文

:尽管真菌与所有植物相关,但真菌内生菌(生活在健康植物组织中的微真菌)却代表了未知比例的真菌多样性。尽管人们越来越意识到它们的生态重要性和人类用途,但对其寄主的特异性,地理结构或系统发育关系知之甚少。我们调查了北方和南部北方森林(魁北克,加拿大)和北极苔原(加拿大努纳武特,加拿大)的三种植物的健康光合组织中的内生子囊菌(三种植物)加拿大)。内生植物从所有调查的植物物种中回收,并且存在于每个寄主物种所检查的2 mm2组织片段的<1-41%中。从558个分离物中的280个获得了来自核糖体内部转录间隔区(ITS)的序列数据。基于ITS基因型的物种积累曲线保持非渐近性,并且自举分析表明仍有大量基因型有待发现。大多数基因型仅从单一寄主物种中回收,而北方和北极群落仅共享6%的基因型。两次独立的贝叶斯分析和对来自核大和小的核糖体亚基(LSUrDNA,SSUrDNA; 2.4 kb)的组合数据的邻居结合自举分析表明,北方和北极内生菌代表十二指肠菌,拟南芥属,Chaetothyriomycetidae,Leotiomycetes和Pezizomycetes。尽管详尽采样了子囊菌的可用序列,但许多得到良好支持的系统型仅包含内生菌。总之,这些数据证明了高纬度地区内生菌的多样性大于预期,并为评估这些鲜为人知但普遍存在的植物共生体的进化提供了框架。

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