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重新审视。

revisited.

作者信息

Razaghi P, Raza M, Han S L, Ma Z Y, Cai L, Zhao P, Chen Q, Phurbu D, Liu F

机构信息

State Key Laboratory of Mycology, Institute of Microbiology, Chinese Academy of Sciences, Beijing 100101, China.

Key Laboratory of Integrated Management on Crops in Northwestern Oasis, Ministry of Agriculture and Rural Affairs, Institute of Plant Protection, Xinjiang Academy of Agricultural Sciences, Urumqi, Xinjiang 830091, China.

出版信息

Stud Mycol. 2024 Dec;109:155-272. doi: 10.3114/sim.2024.109.03. Epub 2024 Jun 27.

DOI:10.3114/sim.2024.109.03
PMID:39717655
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11663424/
Abstract

is a species-rich and cosmopolitan fungal family including species of plant pathogens, endophytes or saprobes, and parasites of humans and animals. The taxonomy of has recently been revised using a polyphasic approach. However, much remains unknown about the diversity of species and their host associations. A collection of 488 strains, mostly from China and associated with 129 host plant species, was studied based on morphological comparisons and multi-locus (LSU, ITS, , , and ) phylogenies. Our results revealed that they belonged to 86 species, one new genus (.) and seven known genera, including , , , , and . Of these, 43 new species and three new combinations (. , . , and . ) are proposed in this paper. In addition, , and are synonymised under , and , respectively. We also corrected seven problematic sequences of type materials of previously published species, namely . (, ITS, ), . (), . (ITS, ) and . (ITS). Based on this study, and are the most commonly detected genera within the family, associated with 84 and 70 plant species, respectively. Furthermore, considering the importance of and the fact that commonly used loci provide little valid information for species delimitation in this family, especially for and , we initiated a phylogenomic project in this study. It will not only contribute to the knowledge of species boundaries but will also provide an important basis for evolutionary studies and research on secondary metabolites in . P. Razaghi, F. Liu & L. Cai. P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu, M. Raza & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai, P. Razaghi, F. Liu & L. Cai. (Kaz. Tanaka ) P. Razaghi, F. Liu & L. Cai, (S.F. Ran & Yong Wang bis) P. Razaghi, F. Liu & L. Cai, Y. Song ) P. Razaghi, F. Liu & L. Cai. Razaghi P, Raza M, Han SL, Ma ZY, Cai L, Zhao P, Chen Q, Phurbu D, Liu F (2024). revisited. : 155-272. doi: 10.3114/sim.2024.109.03.

摘要

是一个物种丰富且分布广泛的真菌家族,包括植物病原体、内生菌或腐生菌以及人类和动物的寄生虫物种。最近已采用多相分类法对其分类进行了修订。然而,关于物种多样性及其宿主关联仍有许多未知之处。基于形态比较和多位点(LSU、ITS、 、 和 )系统发育,对主要来自中国且与129种寄主植物相关的488株菌株进行了研究。我们的结果表明,它们属于86个物种、一个新属(.)和七个已知属,包括 、 、 、 、 和 。其中,本文提出了43个新物种和三个新组合(. 、. 和. )。此外, 、 和 分别被同义化为 、 和 。我们还纠正了先前发表物种的模式材料的七个有问题的序列,即. (, ITS, )、. ()、. (ITS, )和. (ITS)。基于这项研究, 和 是该家族中最常检测到的属,分别与84种和70种植物相关。此外,考虑到 的重要性以及常用基因座在该家族物种界定中提供的有效信息很少,特别是对于 和 ,我们在本研究中启动了一个系统基因组学项目。这不仅将有助于了解物种界限,还将为进化研究和 中次生代谢产物的研究提供重要依据。P. 拉扎吉、F. 刘和L. 蔡。P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘、M. 拉扎和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡,P. 拉扎吉、F. 刘和L. 蔡。(Kaz. 田中)P. 拉扎吉、F. 刘和L. 蔡,(S.F. 冉和王永双)P. 拉扎吉、F. 刘和L. 蔡,Y. 宋)P. 拉扎吉、F. 刘和L. 蔡。拉扎吉P、拉扎M、韩SL、马ZY、蔡L、赵P、陈Q、普尔布D、刘F(2024)。重新审视。 :155 - 272。doi: 10.3114/sim.2024.109.03。

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