The N-end rule pathway is a regulated protein degradation system. Arthrobotrys oligospora, a typical nematode-trapping fungus, switches its life strategies from saprophytism to carnivorism when capturing free-living nematodes by means of adhesive networks. In this study, a putative E3-ligase AoUBR1 involved in N-end rule pathway was characterized in A. oligospora during vegetative growth and trap formation. Expression of AoUBR1 coding gene was down-regulated during trap formation. Compared with wild type, the AoUBR1 knock-out mutants decreased the vegetative growth, formed less traps, and turned to be sensitive to cold stress, while, AoUBR1 overexpression mutants lost the capacity to produce conidia and also formed less traps. A number of genes differentially expressed by knock-out and overexpression of AoUBR1, which lead to the transcriptional responses associated with plasma membrane, transportation, oxidation, and proteolysis. AoUBR1 knock-out also resulted in the down-regulation of numerous secreted proteins associated with carnivorism and nutrient utilization from nematodes. In addition, AoUBR1 homologs were conserved in nematode-trapping fungi based on the genome searching. Therefore, the results suggested AoUBR1 in A. oligospora and its homologs in other trapping fungi are involved in the lifestyle switch between saprophytism and carnivorism.
Keywords: Gene disruption; Nematode-trapping fungi; Transcriptional response; Ubiquitin ligase E3.
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