Abstract

The maintenance of cell-wall integrity (CWI) is important for mycelial growth, development, and pathogenicity in fungi. Arthrobotrys oligospora is a typical nematode-trapping (NT) fungus which can capture nematodes by producing adhesive networks. In this study, we characterized an orthologous MADS-box transcription factor RlmA (AoRlmA) downstream of the CWI regulatory pathway in A. oligospora. The deletion of AorlmA caused a reduction in mycelial growth, the number of nuclei, conidiation, and trap formation, as well as increased sensitivity to cell-wall synthesis-disrupting agents, osmotic agents, and oxidants; accordingly, the transcript levels of genes associated with sporulation, cell-wall biosynthesis, and DNA damage response were downregulated in the ΔAorlmA mutant. Furthermore, the absence of AorlmA resulted in a reduction in autophagy and endocytosis. Transcriptome analysis showed that differentially expressed genes in the absence of AorlmA were involved in membrane components, the oxidation–reduction process, transmembrane transport, metabolic processes, cellular components, organelles, cellular response to stress, and DNA damage response. In addition, metabolomic analysis showed that AoRlmA was involved in the regulation of secondary metabolites of A. oligospora. To summarize, our results highlighted the important roles of transcription factor RlmA in mycelial growth, conidiation, CWI, trap formation, stress response, autophagy, endocytosis, and secondary metabolism regulation in A. oligospora, providing a basis for elucidating the regulatory mechanism of the mycelial growth and development, pathogenicity, and stress response of NT fungi.

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