Short deletions in nuclear targeting sequences of African cassava mosaic virus coat protein prevent geminivirus twinned particle formation.

Coat proteins (CPs) of geminiviruses are multifunctional proteins. Using transient expression experiments, we have recently identified putative sequence motifs of African cassava mosaic virus (ACMV) CP involved in nuclear import (NLS) and export (NES) (Virology 286 (2001) 373). Here, we report on the effect of corresponding deletion mutants in the context of infecting viruses. Since NLS and NES may overlap with DNA binding and multimerisation domains, we have investigated their effect on viral infection, particularly, on particle formation. All deletion mutants were infectious in Nicotiana benthamiana when co-inoculated with DNA B, but poorly sap-transmissible. Some of the mutants showed reduced levels of viral single-stranded DNA (ssDNA), whereas the amount of double-stranded DNA (dsDNA) was not greatly affected. None of these CP mutants was able to produce stable virus particles. In contrast, viruses with CP fused to Flag epitopes at the N- or C-terminus (CP:Flag or Flag:CP) were readily sap-transmissible and formed amorphous nucleoprotein particles but only few geminate structures. The relevance of the identified sequences in replicating viruses with reference to nuclear import and export as well as to particle stability and DNA binding is discussed.