Genomic characterization and radiation tolerance of Naganishia kalamii sp. nov. and Cystobasidium onofrii sp. nov. from Mars 2020 mission assembly facilities.

IF 5.2 1区生物学 Q1 MYCOLOGY

Ima Fungus Pub Date : 2023-08-11 DOI:10.1186/s43008-023-00119-4

Patrick Leo, Marcus de Melo Texeira, Atul M Chander, Nitin K Singh, Anna C Simpson, Andrey Yurkov, Fathi Karouia, Jason E Stajich, Christopher E Mason, Kasthuri Venkateswaran

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Abstract

During the construction and assembly of the Mars 2020 mission components at two different NASA cleanrooms, several fungal strains were isolated. Based on their colony morphology, two strains that showed yeast-like appearance were further characterized for their phylogenetic position. The species-level classification of these two novel strains, using traditional colony and cell morphology methods combined with the phylogenetic reconstructions using multi-locus sequence analysis (MLSA) based on several gene loci (ITS, LSU, SSU, RPB1, RPB2, CYTB and TEF1), and whole genome sequencing (WGS) was carried out. This polyphasic taxonomic approach supported the conclusion that the two basidiomycetous yeasts belong to hitherto undescribed species. The strain FJI-L2-BK-P3^T, isolated from the Jet Propulsion Laboratory Spacecraft Assembly Facility, was placed in the Naganishia albida clade (Filobasidiales, Tremellomycetes), but is genetically and physiologically different from other members of the clade. Another yeast strain FKI-L6-BK-PAB1^T, isolated from the Kennedy Space Center Payload Hazardous and Servicing Facility, was placed in the genus Cystobasidium (Cystobasidiales, Cystobasidiomycetes) and is distantly related to C. benthicum. Here we propose two novel species with the type strains, Naganishia kalamii sp. nov. (FJI-L2-BK-P3^T = NRRL 64466 = DSM 115730) and Cystobasidium onofrii sp. nov. (FKI-L6-BK-PAB1^T = NRRL 64426 = DSM 114625). The phylogenetic analyses revealed that single gene phylogenies (ITS or LSU) were not conclusive, and MLSA and WGS-based phylogenies were more advantageous for species discrimination in the two genera. The genomic analysis predicted proteins associated with dehydration and desiccation stress-response and the presence of genes that are directly related to osmotolerance and psychrotolerance in both novel yeasts described. Cells of these two newly-described yeasts were exposed to UV-C radiation and compared with N. onofrii, an extremophilic UV-C resistant cold-adapted Alpine yeast. Both novel species were UV resistant, emphasizing the need for collecting and characterizing extremotolerant microbes, including yeasts, to improve microbial reduction techniques used in NASA planetary protection programs.

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火星2020任务组装设施中naganishi kalamii sp. 11和Cystobasidium onofrii sp. 11 .的基因组特征和辐射耐受性。

在NASA两个不同的洁净室建造和组装火星2020任务组件期间，分离出了几种真菌菌株。根据菌落形态，对两株具有酵母样外观的菌株进行了进一步的系统发育鉴定。采用传统的菌落和细胞形态学方法，结合基于ITS、LSU、SSU、RPB1、RPB2、CYTB和TEF1基因座的多位点序列分析(MLSA)和全基因组测序(WGS)进行系统发育重建，对这两株新菌株进行了种水平的分类。这种多相分类学方法支持了这两种担子酵母属于迄今未被描述的种的结论。菌株FJI-L2-BK-P3T是从喷气推进实验室航天器组装设施中分离出来的，被放置在naganishi albida分支(filobasdiales, Tremellomycetes)中，但在遗传和生理上与该分支的其他成员不同。另一株酵母菌菌株FKI-L6-BK-PAB1T从肯尼迪航天中心有效载荷危险和服务设施中分离出来，被归入囊泡菌属(囊泡菌属，囊泡菌属)，与底菌C. benthicum有远亲关系。本文提出了两种具有类型菌株的新种:naganishi kalamii sp. nov (fki - l6 - bk - p3t = NRRL 64466 = DSM 115730)和Cystobasidium onofrii sp. nov (FKI-L6-BK-PAB1T = NRRL 64426 = DSM 114625)。系统发育分析表明，单基因系统发育(ITS或LSU)尚无定论，基于MLSA和wgs的系统发育更有利于两属的物种区分。基因组分析预测了两种新型酵母中与脱水和干燥应激反应相关的蛋白质，以及与渗透耐受性和耐寒性直接相关的基因。将这两种新发现的酵母细胞暴露在UV-C辐射下，并与N. onofrii进行比较，N. onofrii是一种嗜极抗UV-C的冷适应高山酵母。这两种新物种都是抗紫外线的，这强调了收集和鉴定极端耐受性微生物(包括酵母)的必要性，以改进NASA行星保护计划中使用的微生物减少技术。

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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来源期刊

Ima Fungus Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)

CiteScore

11.00

自引率

3.70%

发文量

审稿时长

20 weeks

期刊介绍： The flagship journal of the International Mycological Association. IMA Fungus is an international, peer-reviewed, open-access, full colour, fast-track journal. Papers on any aspect of mycology are considered, and published on-line with final pagination after proofs have been corrected; they are then effectively published under the International Code of Nomenclature for algae, fungi, and plants. The journal strongly supports good practice policies, and requires voucher specimens or cultures to be deposited in a public collection with an online database, DNA sequences in GenBank, alignments in TreeBASE, and validating information on new scientific names, including typifications, to be lodged in MycoBank. News, meeting reports, personalia, research news, correspondence, book news, and information on forthcoming international meetings are included in each issue