The conserved WetA protein involved in asexual development in fungi is localized to the nuclei in the asexual spores of Paecilomyces variotii

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-08 DOI:10.1016/j.funbio.2024.08.003
Nicholas F. Chong , Andrew S. Urquhart , Alexander Idnurm
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Abstract

Mutations have underpinned research into gene characterization across all domains of life. This includes the discovery of the genes involved in the development of asexual spores in filamentous fungi. Mutants in the ascomycete Paecilomyces variotii were isolated with impaired biosynthesis of the characteristic yellow pigment produced by this filamentous fungus. The affected genes were identified as pvpP, encoding the polyketide synthase that is required for synthesis of the pigment YWA1, and abaA and wetA that are two genes that encode components of the AbaA-BrlA-WetA module required for the development of asexual spores in species in the Eurotiales order. WetA was further characterized. A strain expressing a functional WetA-GFP fusion was created and used to find that WetA is expressed primarily in spores and concentrated in their nuclei, providing evidence that this conserved protein likely functions as a regulator of transcription in conidia. Analysis of the phenotypes of the P. variotii wetA mutant suggests that how this three-protein module impacts fungal biology will vary from species-to-species, despite being conserved amongst filamentous Ascomycete species.

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真菌中参与无性发育的保守 WetA 蛋白定位于变异姬松茸无性孢子的细胞核中
基因突变推动了对生命各领域基因特征的研究。其中包括发现丝状真菌中参与无性孢子发育的基因。在无丝真菌 Paecilomyces variotii 中分离出的突变体中,这种丝状真菌产生的特有黄色素的生物合成受到了损害。受影响的基因被鉴定为 pvpP(编码合成色素 YWA1 所需的多酮合成酶)以及 abaA 和 wetA(编码欧罗巴菌目中无性孢子发育所需的 AbaA-BrlA-WetA 模块的两个基因)。对 WetA 进行了进一步鉴定。创建了表达功能性 WetA-GFP 融合菌株,并发现 WetA 主要在孢子中表达,且集中在孢子核中,从而证明这一保守蛋白可能在分生孢子中发挥转录调节器的功能。对P. variotii wetA突变体表型的分析表明,尽管这种三蛋白模块在丝状子囊菌物种中是保守的,但它对真菌生物学的影响将因物种而异。
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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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