Assembly and comparative genome analysis of a Patagonian Aureobasidium pullulans isolate reveals unexpected intraspecific variation.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2023-05-01 DOI:10.1002/yea.3853
Micaela Parra, Diego Libkind, Chris Todd Hittinger, Lucía Álvarez, Nicolás Bellora
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Abstract

Aureobasidium pullulans is a yeast‐like fungus with remarkable phenotypic plasticity widely studied for its importance for the pharmaceutical and food industries. So far, genomic studies with strains from all over the world suggest they constitute a genetically unstructured population, with no association by habitat. However, the mechanisms by which this genome supports so many phenotypic permutations are still poorly understood. Recent works have shown the importance of sequencing yeast genomes from extreme environments to increase the repertoire of phenotypic diversity of unconventional yeasts. In this study, we present the genomic draft of A. pullulans strain from a Patagonian yeast diversity hotspot, re‐evaluate its taxonomic classification based on taxogenomic approaches, and annotate its genome with high‐depth transcriptomic data. Our analysis suggests this isolate could be considered a novel variant at an early stage of the speciation process. The discovery of divergent strains in a genomically homogeneous group, such as A. pullulans, can be valuable in understanding the evolution of the species. The identification and characterization of new variants will not only allow finding unique traits of biotechnological importance, but also optimize the choice of strains whose phenotypes will be characterized, providing new elements to explore questions about plasticity and adaptation.

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一个巴塔哥尼亚普鲁兰短毛霉分离物的组装和比较基因组分析揭示了意想不到的种内变异。
普鲁兰小孢子菌是一种具有显著表型可塑性的酵母样真菌,因其在制药和食品工业中的重要性而被广泛研究。到目前为止,对来自世界各地的菌株进行的基因组研究表明,它们构成了一个基因非结构化的种群,与栖息地无关。然而,该基因组支持如此多表型排列的机制仍然知之甚少。最近的研究表明,在极端环境中对酵母基因组进行测序对于增加非常规酵母的表型多样性具有重要意义。在这项研究中,我们提出了来自巴塔哥尼亚酵母多样性热点的a. pululans菌株的基因组草图,基于分类基因组学方法重新评估其分类分类,并使用高深度转录组数据对其基因组进行注释。我们的分析表明,这种分离物可以被认为是物种形成过程早期阶段的一种新变体。在基因组同质的群体中发现不同的菌株,如普鲁兰芽孢杆菌,对于理解物种的进化是有价值的。新变异的鉴定和表征不仅可以发现具有生物技术重要性的独特性状,还可以优化菌株的选择,其表型将被表征,为探索可塑性和适应性问题提供新的元素。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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