E-M349E and NS2A/2B–P1(T) are compensatory mutations of rDTMUV-NS2AB-P1P1’(AA), which regain virus proliferation by enhancing the virus package and restoring NS2A/2B cleavage

Abstract

Duck Tembusu virus (DTMUV) belongs to the Flaviviridae family and mainly infects ducks. The genome of DTMUV is translated into a polyprotein, which is further cleaved into several protein by viral NS2B3 protease and host proteases. Crucially, the cleavage of the NS2A/2B precursor during this process is essential for the formation of replication complexes and viral packaging. Previous research has demonstrated that alanine mutations in NS2A/2B (P1P1’ (AA)) result in an attenuated strain (rDTMUV-NS2A/2B–P1P1’ (AA)) by disrupting NS2A/2B cleavage. In this study, we investigate the effects of the P1P1’ (AA) mutation on the viral life cycle and explore compensatory mutations in rDTMUV-NS2A/2B–P1P1’ (AA). Infected ducklings exhibit similar body weight gain and viral tissue loads to DTMUV-WT. Compensatory mutations E-M349E and P1(T) emerge, restoring proliferation levels to those of rDTMUV-WT. Specifically, E-M349E enhances viral packaging, while P1(T) reinstates NS2A/2B proteolysis in vitro. Thus, our findings reveal novel compensatory sites capable of restoring the attenuated DTMUV during polyprotein cleavage and packaging.