Alternative splicing of the conserved drug-resistant orthologue FpNcb2 is associated with its nuclear accumulation of products and full virulence of Fusarium pseudograminearum.

BACKGROUND: Negative cofactor 2 NC2ß (Ncb2 or Dr1) is the beta subunit of a conserved heterodimeric regulator of transcription negative cofactor 2 (NC2) complex that has been identified as key regulator of drug resistance in model fungi. However, its role in plant pathogens is still unclear. RESULTS: We identified an NC2ß orthologue, FpNcb2, in Fusarium pseudograminearum, which is not only a significant regulatory function in drug resistance, but also essential for growth, conidiation and penetration. Moreover, FpNcb2 undergoes alternative splicing which creates two mRNA isoforms. As a putative CCAAT binding protein, FpNcb2 concentrates in the nuclei, contributing to the expression of two spliced mRNA of FpNcb2 in hypha, conidiophores and conidia, with exception of FpNcb2ISOA in germlings. Expression of each spliced mRNA of FpNcb2 in Δfpncb2 mutant could full complement the defects on growth, conidiation and fungicides sensitivity to that of wild type. However, FpNcb2ISOA and FpNcb2ISOB have different effects on virulence. FpNcb2 acts as a regulator for the transcription of some genes encoding drug efflux and hydrolases. CONCLUSION: Our analysis showed the existence of alternative mRNA splicing in the NC2ß orthologue, which is associated with protein subcellular localization and fungal virulence. The further elucidation of the target genes of NC2ß will provide insights into the potential regulation mechanisms in the antifungal resistance and pathogenesis of F. pseudograminearum. © 2024 Society of Chemical Industry.