Bean yellow dwarf virus RepA, but not Rep, binds to maize retinoblastoma protein and the virus tolerates mutations in the consensus binding motif

Abstract

It has previously been reported that complementary-sense gene products of wheat dwarf virus (WDV), a geminivirus of the genus Mastrevirus that infects monocotyledonous plants, bind to human and maize retinoblastoma (Rb) protein. Rb proteins control cell-cycle progression by sequestering transcription factors required for entry into S-phase, suggesting that the virus modifies the cellular environment to produce conditions suitable for viral DNA replication. Using a yeast two-hybrid assay, we have investigated whether the complementary-sense gene products of bean yellow dwarf virus, a mastrevirus that is adapted to dicotyledonous plants, also bind maize Rb protein. We demonstrate that whereas RepA binds to Rb protein, Rep does not, suggesting that RepA alone regulates host gene expression and progression of cells to S-phase. RepA mutants containing L → I, C → S, C → G, and E → Q mutations within the consensus Rb protein binding motif LXCXE retained the ability to bind to Rb, but with reduced efficiency. Most notably, the E → Q mutation reduced binding by approximately 95%. Nonetheless, all LXCXE mutants were able to replicate in tobacco protoplasts and to systemically infect Nicotiana benthamiana and bean, in which they produced wild-type symptoms.