Biosciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, United States of America.
The Bredesen Center for Interdisciplinary Research and Graduate Education, University of Tennessee, Knoxville, TN, United States of America.
PLoS One. 2021 Jan 6;16(1):e0231367. doi: 10.1371/journal.pone.0231367. eCollection 2021.
The ectomycorrhizal fungal symbiont Cenococcum geophilum is of high interest as it is globally distributed, associates with many plant species, and has resistance to multiple environmental stressors. C. geophilum is only known from asexual states but is often considered a cryptic species complex, since extreme phylogenetic divergence is often observed within nearly morphologically identical strains. Alternatively, C. geophilum may represent a highly diverse single species, which would suggest cryptic but frequent recombination. Here we describe a new isolate collection of 229 C. geophilum isolates from soils under Populus trichocarpa at 123 collection sites spanning a ~283 mile north-south transect in Western Washington and Oregon, USA (PNW). To further understanding of the phylogenetic relationships within C. geophilum, we performed maximum likelihood and Bayesian phylogenetic analyses to assess divergence within the PNW isolate collection, as well as a global phylogenetic analysis of 789 isolates with publicly available data from the United States, Japan, and European countries. Phylogenetic analyses of the PNW isolates revealed three distinct phylogenetic groups, with 15 clades that strongly resolved at >80% bootstrap support based on a GAPDH phylogeny and one clade segregating strongly in two principle component analyses. The abundance and representation of PNW isolate clades varied greatly across the North-South range, including a monophyletic group of isolates that spanned nearly the entire gradient at ~250 miles. A direct comparison between the GAPDH and ITS rRNA gene region phylogenies, combined with additional analyses revealed stark incongruence between the ITS and GAPDH gene regions, consistent with intra-species recombination between PNW isolates. In the global isolate collection phylogeny, 34 clades were strongly resolved using Maximum Likelihood and Bayesian approaches (at >80% MLBS and >0.90 BPP respectively), with some clades having intra- and intercontinental distributions. Together these data are highly suggestive of divergence within multiple cryptic species, however additional analyses such as higher resolution genotype-by-sequencing approaches are needed to distinguish potential species boundaries and the mode and tempo of recombination patterns.
外生菌根真菌共生体胶膜革菌(Cenococcum geophilum)分布广泛,与许多植物物种共生,并且具有多种环境胁迫抗性,因此受到高度关注。胶膜革菌仅存在无性状态,但通常被认为是一个隐种复合体,因为在形态几乎相同的菌株中经常观察到极端的系统发育分歧。或者,胶膜革菌可能代表一个高度多样化的单一物种,这表明存在隐种但频繁的重组。在这里,我们描述了一个来自美国华盛顿州和俄勒冈州 123 个地点的杂交白杨(Populus trichocarpa)土壤中的 229 个胶膜革菌新分离株的收集,这些地点跨越了约 283 英里的南北方向的横切(PNW)。为了进一步了解胶膜革菌内的系统发育关系,我们进行了最大似然和贝叶斯系统发育分析,以评估 PNW 分离株收集内的分歧,以及对来自美国、日本和欧洲国家的公开数据的全球系统发育分析。对 PNW 分离株的系统发育分析显示出三个不同的系统发育群,有 15 个分支在基于 GAPDH 系统发育的 80%以上bootstrap 支持下强烈解决,一个分支在两个主成分分析中强烈分离。PNW 分离株的丰度和代表在南北范围内变化很大,包括一个在近 250 英里范围内跨越整个梯度的单系分离株群。GAPDH 和 ITS rRNA 基因区域系统发育之间的直接比较,结合其他分析结果表明,ITS 和 GAPDH 基因区域之间存在明显的不一致,这与 PNW 分离株之间的种内重组一致。在全球分离株收集的系统发育树中,34 个分支使用最大似然法和贝叶斯方法(分别大于 80%的 MLBS 和大于 0.90 的 BPP)得到了强烈解决,有些分支具有洲际和跨洲际分布。这些数据强烈表明存在多个隐种的分歧,但是需要更高分辨率的基因型测序方法等额外分析来区分潜在的种界和重组模式的模式和速度。
