Differential Alternative Splicing Genes and Isoform Regulation Networks of Rapeseed ( Brassica napus L.) Infected with Sclerotinia sclerotiorum .

Alternative splicing (AS) is a post-transcriptional level of gene expression regulation that increases transcriptome and proteome diversity. How the AS landscape of rapeseed (Brassica napusL.) changes in response to the fungal pathogenSclerotinia sclerotiorumis unknown. Here, we analyzed 18 RNA-seq libraries of mock-inoculated andS. sclerotiorum-inoculated susceptible and tolerantB. napusplants. We found that infection increased AS, with intron retention being the main AS event. To determine the key genes functioning in the AS response, we performed a differential AS (DAS) analysis. We identified 79 DAS genes, including those encoding splicing factors, defense response proteins, crucial transcription factors and enzymes. We generated coexpression networks based on the splicing isoforms, rather than the genes, to explore the genes' diverse functions. Using this weighted gene coexpression network analysis alongside a gene ontology enrichment analysis, we identified 11 modules putatively involved in the pathogen defense response. Within these regulatory modules, six DAS genes (ascorbate peroxidase 1, ser/arg-rich protein 34a, unknown function 1138, nitrilase 2, v-atpase f, and amino acid transporter 1) were considered to encode key isoforms involved in the defense response. This study provides insight into the post-transcriptional response ofB. napustoS. sclerotioruminfection.