Role of MicroRNA-Like RNAs in the Regulation of Spore Morphological Differences in the Entomopathogenic Fungus Metarhizium acridum.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-09-24 eCollection Date: 2022-09-01 DOI:10.33073/pjm-2022-028
Erhao Zhang, Jie Zhang, Rundong Zhao, Yazhou Lu, Xiu Yin, Xiaozhong Lan, Zhang Luo
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Abstract

Metarhizium acridum is an important microbial pesticide. Conidia (CO) and blastospores (BS) are two types of spores that occur in different patterns in the M. acridum life cycle and exhibit significant differences in cell morphology, structure, and activity. It may suggest that the fungus has a complex gene regulation mechanism. While previous studies on the differences between CO and BS have mainly focused on cell structure and application, little is known regarding the differences between CO and BS in fungi on the transcriptome levels. MicroRNAs (miRNAs) are small noncoding RNAs crucial to gene regulation and cell function. Understanding the miRNA-like RNAs (milRNA) and mRNA expression profiles related to cell growth and cellular morphological changes would elucidate the roles of miRNAs in spore morphological differences. In this study, 4,646 differentially expressed genes (DEGs) were identified and mainly classified in the GO terms cell, cell part, biological process, and catalytic activity. The KEGG annotation suggested that they were enriched in amino acid biosynthesis, carbohydrate metabolism, ribosome, and oxidative phosphorylation and might be involved in cell activity and structure. There were 113 differentially expressed milRNAs (DEMs), targeting 493 DEGs. Target gene functional analysis revealed that the target genes were mainly enriched in RNA transport, purine metabolism, and the cell cycle. In addition, we identified essential genes from milRNA-mRNA pairs that might participate in cell budding growth and cell membrane and wall integrity, including adenosine deaminase, glycosyl hydrolase, and G-patch domain protein (dno-miR-328-3p), WD repeat-containing protein pop1 (age-miR-127), and GPI-anchored wall transfer protein (cgr-miR-598). MilRNAs might therefore play a crucial role in cell growth and cellular morphological changes as transcriptional and post-transcriptional regulators.

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microrna样rna在昆虫病原真菌绿僵菌孢子形态差异调控中的作用。
绿僵菌是一种重要的微生物农药。分生孢子(CO)和胚孢子(BS)是M. acridum生命周期中以不同模式出现的两种孢子,它们在细胞形态、结构和活性上存在显著差异。这可能表明真菌具有复杂的基因调控机制。以往对CO和BS差异的研究主要集中在细胞结构和应用方面,而对真菌中CO和BS在转录组水平上的差异知之甚少。MicroRNAs (miRNAs)是一种小的非编码rna,对基因调控和细胞功能至关重要。了解与细胞生长和细胞形态变化相关的mirna样rna (milRNA)及其mRNA表达谱,将有助于阐明mirna在孢子形态差异中的作用。本研究共鉴定出4646个差异表达基因(deg),主要从氧化石墨烯的细胞、细胞部分、生物过程和催化活性等方面进行分类。KEGG注释表明它们富含氨基酸生物合成、碳水化合物代谢、核糖体和氧化磷酸化,可能参与细胞活性和结构。有113个差异表达的milRNAs (DEMs),靶向493个deg。靶基因功能分析显示,靶基因主要富集于RNA转运、嘌呤代谢和细胞周期。此外,我们从milRNA-mRNA对中鉴定出可能参与细胞出芽生长和细胞膜和细胞壁完整性的必要基因,包括腺苷脱氨酶、糖基水解酶、G-patch结构域蛋白(dno-miR-328-3p)、WD重复序列蛋白pop1 (age-miR-127)和gpi锚定的壁转移蛋白(cgr-miR-598)。因此,作为转录和转录后调控因子,milrna可能在细胞生长和细胞形态变化中起着至关重要的作用。
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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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