Phylogeography and evolutionary patterns in Sporothrix spanning more than 14 000 human and animal case reports

Persoonia : Molecular Phylogeny and Evolution of Fungi Pub Date : 2015-01-29 DOI:10.3767/003158515X687416

Yu Zhang, F. Hagen, B. Stielow, A. M. Rodrigues, K. Samerpitak, X. Zhou, Peiying Feng, L. Yang, Min Chen, Shuwen Deng, S. Li, Wanqing Liao, R. Li, F. Li, Jacques F. Meis, J. Guarro, M. Teixeira, Hassan S. Al-Zahrani, Z. P. D. Camargo, L. Zhang, G. S. D. Hoog

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引用次数: 154

Abstract

Pathology to vertebrate hosts has emerged repeatedly in the order Ophiostomatales. Occasional infections have been observed in Sporothrix mexicana at a low level of virulence, while the main pathogenic species cluster in a derived clade around S. schenckii s.str. In this paper, phylogeny and epidemiology of the members of this clade were investigated for 99 clinical and 36 environmental strains using four genetic loci, viz. rDNA ITS and partial CAL, TEF1, and TEF3; data are compared with amplified fragment length polymorphism (AFLP) genotyping. The four main species of the pathogenic clade were recognised. The species proved to show high degrees of endemicity, which enabled interpretation of literature data where live material or genetic information is lacking. The clade of four species comprised nine subclusters, which often had limited geographic distribution and were separate from each other in all partitions, suggesting low degrees of interbreeding between populations. In contrast, S. globosa exhibited consistent global distribution of identical AFLP types, suggesting another type of dispersal. Sporothrix brasiliensis is known to be involved in an expanding zoonosis and transmitted by cats, whereas S. globosa infections originated from putrid plant material, causing a sapronosis. Sporothrix schenckii s.str., the most variable species within the clade, also had a plant origin, with ecological similarities to that of S. globosa. A hypothesis was put forward that highly specific conditions in the plant material are required to promote the growth of Sporothrix. Fermented, self-heated plant debris may stimulate the thermodependent yeast-like invasive form of the fungus, which facilitates repeated infection of mammals.

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孢子菌的系统地理学和进化模式涵盖了超过14000例人类和动物病例报告

脊椎动物宿主的病理学在蛇口目中反复出现。墨西哥孢子菌偶有感染，毒力较低，而主要致病种聚集在申克孢子菌周围的派生枝上。本文利用rDNA ITS和部分CAL、TEF1和TEF3 4个遗传位点对99株临床菌株和36株环境菌株进行了系统发育和流行病学研究;数据与扩增片段长度多态性(AFLP)基因分型进行比较。鉴定出致病分支的四个主要物种。该物种被证明具有高度的地方性，这使得在缺乏活的材料或遗传信息的文献数据的解释成为可能。4个物种的进化枝包括9个亚簇，这些亚簇通常地理分布有限，并且在所有分区中彼此分离，表明种群之间的杂交程度较低。相比之下，S. globosa在相同的AFLP类型中表现出一致的全球分布，表明是另一种类型的分散。众所周知，巴西孢子丝虫与不断扩大的人畜共患病有关，并由猫传播，而全球孢子丝虫感染源于腐烂的植物材料，导致腐臭。申氏孢子丝菌。该分支中变异最大的物种也有植物起源，与S. globosa的生态相似。提出了一种假说，认为促进孢子菌生长需要植物材料中具有高度特异性的条件。发酵的、自加热的植物残骸可能会刺激真菌的热依赖性酵母样侵入形式，从而促进哺乳动物的反复感染。

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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Persoonia : Molecular Phylogeny and Evolution of Fungi

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