从食品和食品生产环境中分离的耐高温黑酵母的基因组特征。

IF 2.1 Q3 MYCOLOGY Frontiers in fungal biology Pub Date : 2022-07-26 eCollection Date: 2022-01-01 DOI:10.3389/ffunb.2022.928622
Shiyu Cai, Abigail B Snyder
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引用次数: 0

摘要

黑酵母已经从酸性、低水活性、热加工食品以及食品制造厂的表面分离出来。它们对食物相关环境胁迫的相对耐受性的基因组基础尚未得到很好的定义。在本研究中,我们对从食品或食品生产环境中分离的7株黑酵母菌株进行了全基因组测序(WGS),包括Aureobasidium(n=5)和Exophiala(n=2)。这些菌株先前的特征是它们对热、高渗压力、高压处理、次氯酸盐消毒剂和紫外线的耐受性。根据WGS的数据,先前被鉴定为支链分枝杆菌的菌株中有三株被重新分配为产黑分枝杆菌。单倍体和二倍体产黑A.melanogenum菌株都在这个集合中被鉴定。将基于β-微管蛋白、RNA聚合酶II或翻译延伸因子蛋白序列的单基因座系统发育与通过SNP分析产生的系统发育进行了比较,揭示了二倍体菌株中真菌基因组的重复使单基因座系发育的使用复杂化。系统发育与环境源或应激耐受表型之间没有很强的相关性,在这个集合中,与极端耐受相关的应激相关基因的拷贝数趋势也没有。虽然各属之间存在明显差异,但耐应激表型和基因型的异质性分布表明,与食物相关的黑酵母可能无处不在,而不是与特定生态位相关的专家。然而,有必要进一步评估其他菌株和基因序列修饰的潜在影响,以证实这些发现。
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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Genomic characterization of polyextremotolerant black yeasts isolated from food and food production environments.

Black yeasts have been isolated from acidic, low water activity, and thermally processed foods as well as from surfaces in food manufacturing plants. The genomic basis for their relative tolerance to food-relevant environmental stresses has not been well defined. In this study, we performed whole genome sequencing (WGS) on seven black yeast strains including Aureobasidium (n=5) and Exophiala (n=2) which were isolated from food or food production environments. These strains were previously characterized for their tolerance to heat, hyperosmotic pressure, high pressure processing, hypochlorite sanitizers, and ultraviolet light. Based on the WGS data, three of the strains previously identified as A. pullulans were reassigned as A. melanogenum. Both haploid and diploid A. melanogenum strains were identified in this collection. Single-locus phylogenies based on beta tubulin, RNA polymerase II, or translation elongation factor protein sequences were compared to the phylogeny produced through SNP analysis, revealing that duplication of the fungal genome in diploid strains complicates the use of single-locus phylogenetics. There was not a strong association between phylogeny and either environmental source or stress tolerance phenotype, nor were trends in the copy numbers of stress-related genes associated with extremotolerance within this collection. While there were obvious differences between the genera, the heterogenous distribution of stress tolerance phenotypes and genotypes suggests that food-relevant black yeasts may be ubiquitous rather than specialists associated with particular ecological niches. However, further evaluation of additional strains and the potential impact of gene sequence modification is necessary to confirm these findings.

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CiteScore
2.70
自引率
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审稿时长
13 weeks
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