biostudies-literature00440Meng HNatural Science Foundation of Anhui ProvinceNatural Science Foundation of the Higher Education Institutions of Anhui ProvinceNational Natural Science Foundation of Chinae03230-16https://www.ebi.ac.uk/biostudies/studies/S-EPMC5359476biostudies-literatureUnknown83(7)RNA interference (RNAi) is a gene-silencing mechanism that plays an important role in gene regulation in a number of eukaryotic organisms. Two core components, Dicer and Argonaute, are central in the RNAi machinery. However, the physiological roles of Dicer and Argonaute in the entomopathogenic fungus <i>Metarhizium robertsii</i> have remained unclear. Here, the roles of genes encoding Dicer (<i>M. robertsii</i><i>dcl1</i> [<i>Mrdcl1</i>] and <i>Mrdcl2</i>) and Argonaute (<i>Mrago1</i> and <i>Mrago2</i>) proteins in <i>M. robertsii</i> were investigated. The results showed that the Dicer-like protein MrDCL2 and Argonaute protein MrAGO1 are the major components of the RNAi process occurring in <i>M. robertsii</i> The Dicer and Argonaute genes were not involved in the regulation of growth and diverse abiotic stress response in <i>M. robertsii</i> under the tested conditions. Moreover, our results showed that the Dicer and Argonaute gene mutants demonstrated reduced abilities to produce conidia, compared to the wild type (WT) and the gene-rescued mutant. In particular, the conidial yields in the Δ<i>dcl2</i> and Δ<i>ago1</i> mutants were reduced by 55.8% and 59.3%, respectively, compared with those from the control strains. Subsequently, for the WT and Δ<i>dcl2</i> mutant strains, digital gene expression (DGE) profiling analysis of the stage of mycelium growth and conidiogenesis revealed that modest changes occur in development or metabolism processes, which may explain the reduction in conidiation in the Δ<i>dcl2</i> mutant. In addition, we further applied high-throughput sequencing technology to identify small RNAs (sRNAs) that are differentially expressed in the WT and the Δ<i>dcl2</i> mutant and found that 4 known microRNA-like small RNAs (milRNAs) and 8 novel milRNAs were <i>Mrdcl2</i> dependent in <i>M. robertsii</i><b>IMPORTANCE</b> The identification and characterization of components in RNAi have contributed significantly to our understanding of the mechanism and functions of RNAi in eukaryotes. Here, we found that Dicer and Argonaute genes play an important role in regulating conidiation in <i>M. robertsii</i> Our study also demonstrates that diverse small RNA pathways exist in <i>M. robertsii</i> The study provides a theoretical platform for exploration of the functions of Dicer and Argonaute genes involved in RNAi in fungi.Applied and environmental microbiologyDicer and Argonaute Genes Involved in RNA Interference in the Entomopathogenic Fungus Metarhizium robertsii.PMC53594763127209631471821KJ2015A081315720601408085MKL371308085QC61Zhu HWang YWang ZHuang BMeng H44falseDicer and Argonaute Genes Involved in RNA Interference in the Entomopathogenic Fungus Metarhizium robertsii.RNA interference (RNAi) is a gene-silencing mechanism that plays an important role in gene regulation in a number of eukaryotic organisms. Two core components, Dicer and Argonaute, are central in the RNAi machinery. However, the physiological roles of Dicer and Argonaute in the entomopathogenic fungus <i>Metarhizium robertsii</i> have remained unclear. Here, the roles of genes encoding Dicer (<i>M. robertsii</i><i>dcl1</i> [<i>Mrdcl1</i>] and <i>Mrdcl2</i>) and Argonaute (<i>Mrago1</i> and <i>Mrago2</i>) proteins in <i>M. robertsii</i> were investigated. The results showed that the Dicer-like protein MrDCL2 and Argonaute protein MrAGO1 are the major components of the RNAi process occurring in <i>M. robertsii</i> The Dicer and Argonaute genes were not involved in the regulation of growth and diverse abiotic stress response in <i>M. robertsii</i> under the tested conditions. Moreover, our results showed that the Dicer and Argonaute gene mutants demonstrated reduced abilities to produce conidia, compared to the wild type (WT) and the gene-rescued mutant. In particular, the conidial yields in the Δ<i>dcl2</i> and Δ<i>ago1</i> mutants were reduced by 55.8% and 59.3%, respectively, compared with those from the control strains. Subsequently, for the WT and Δ<i>dcl2</i> mutant strains, digital gene expression (DGE) profiling analysis of the stage of mycelium growth and conidiogenesis revealed that modest changes occur in development or metabolism processes, which may explain the reduction in conidiation in the Δ<i>dcl2</i> mutant. In addition, we further applied high-throughput sequencing technology to identify small RNAs (sRNAs) that are differentially expressed in the WT and the Δ<i>dcl2</i> mutant and found that 4 known microRNA-like small RNAs (milRNAs) and 8 novel milRNAs were <i>Mrdcl2</i> dependent in <i>M. robertsii</i><b>IMPORTANCE</b> The identification and characterization of components in RNAi have contributed significantly to our understanding of the mechanism and functions of RNAi in eukaryotes. Here, we found that Dicer and Argonaute genes play an important role in regulating conidiation in <i>M. robertsii</i> Our study also demonstrates that diverse small RNA pathways exist in <i>M. robertsii</i> The study provides a theoretical platform for exploration of the functions of Dicer and Argonaute genes involved in RNAi in fungi.2017-01-01T00:00:00Z2017 Apr2024-12-03T18:34:14.153Z2019-03-27T02:39:08ZS-EPMC53594762813029910.1128/AEM.03230-1610.1128/aem.03230-16