Unbiased discovery of natural sequence variants that influence fungal virulence.

Cell host & microbe Pub Date : 2023-11-08 Epub Date: 2023-10-27 DOI:10.1016/j.chom.2023.10.002

Daniel Paiva Agustinho, Holly Leanne Brown, Guohua Chen, Elizabeth Anne Gaylord, Jennifer Geddes-McAlister, Michael Richard Brent, Tamara Lea Doering

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Abstract

Isolates of Cryptococcus neoformans, a fungal pathogen that kills over 112,000 people each year, differ from a 19-Mb reference genome at a few thousand up to almost a million DNA sequence positions. We used bulked segregant analysis and association analysis, genetic methods that require no prior knowledge of sequence function, to address the key question of which naturally occurring sequence variants influence fungal virulence. We identified a region containing such variants, prioritized them, and engineered strains to test our findings in a mouse model of infection. At one locus, we identified a 4-nt variant in the PDE2 gene that occurs in common laboratory strains and severely truncates the encoded phosphodiesterase. The resulting loss of phosphodiesterase activity significantly impacts virulence. Our studies demonstrate a powerful and unbiased strategy for identifying key genomic regions in the absence of prior information and provide significant sequence and strain resources to the community.

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影响真菌毒力的自然序列变异的无偏见发现。

新型隐球菌是一种每年导致112000多人死亡的真菌病原体，其分离株与19Mb的参考基因组在几千到近一百万个DNA序列位置上存在差异。我们使用批量分段分析和关联分析，这是一种不需要事先了解序列功能的遗传方法，来解决哪些自然发生的序列变异会影响真菌毒力的关键问题。我们确定了一个包含此类变体的区域，对其进行了优先排序，并设计了菌株，以在小鼠感染模型中测试我们的发现。在一个基因座上，我们在PDE2基因中发现了一个4-nt变体，该变体出现在常见的实验室菌株中，并严重截短了编码的磷酸二酯酶。由此导致的磷酸二酯酶活性的丧失显著影响毒力。我们的研究证明了在缺乏先前信息的情况下识别关键基因组区域的强大而公正的策略，并为社区提供了重要的序列和菌株资源。

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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Cell host & microbe

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