Cell-to-cell trafficking of cucumber mosaic virus movement protein green fluorescent protein fusion produced by biolistic gene bombardment in tobacco

Previous micro-injection studies showed that some recombinant viral movement proteins and plant proteins produced in and purified from Escherichia coli could traffic from cell to cell. However, the relevance of these findings obtained by micro-injecting proteins produced in E. coli to the real functions of these proteins when produced in planta has been questioned. In this study, specific gene constructs were delivered by biolistic bombardment into tobacco (Nicotiana tabacum var Samsun) leaf epidermis for in planta production of the green fluorescent protein (GFP) and various fusions between the cucumber mosaic virus 3a movement protein (3a MP) and GFP Free GFP remained in cells producing it. In contrast, 3a MP:GFP fusion protein moved from approximately half of the cells producing it into neighboring cells. The movement also occurred at 4 degrees C. A mutant 3a MP:GFP was incapable of cell-to-cell movement in all cases. A 3a MP:GUS fusion protein produced in this manner also moved from cell to cell. Our data provide direct evidence that specific viral proteins produced in planta can be transported between cells. Furthermore, our data suggest that the CMV 3a MP contains a signal for transport. Our approach is simple and efficient and has many potential applications in studying plasmodesma-mediated macromolecular transport.