PLEIOTROPIC EFFECTS OF TOBACCO-MOSAIC-VIRUS MOVEMENT PROTEIN ON CARBON METABOLISM IN TRANSGENIC TOBACCO PLANTS

Transgenic tobacco (Nicotiana tabacum L. cv. Xanthi) plants expressing wild-type or mutant forms of the 30-kDa movement protein of tobacco m osaic virus (TMV-MP) were employed to study the effects of the TMV-MP on carbon metabolism in source leaves. Fully expanded source leaves of transgenic plants expressing the TMV-MP were found to retain more new ly fixed C-14 compared with control plants. Analysis of C-14-export fr om young leaves of TMV-MP plants, where the MP is yet to influence pla smodesmal size exclusion limit, indicated a similar pattern, in that d aytime C-14 export was slower in TMV-MP plants as compared to equivale nt-aged leaves on control plants. Pulse-chase experiments were used to monitor radioactivity present in the different carbohydrate fractions , at specified intervals following (CO2)-C-14 labeling. These studies established that the TMV-MP can cause a significant adjustment in shor t-term C-14-photosynthate storage and export. That these effects of th e TMV-MP on carbon metabolism and phloem function were not attributabl e to the effect of this protein on plasmodesmal size exclusion limits, per se, was established using transgenic tobacco plants expressing te mperature-sensitive and C-terminal deletion mutant forms of the TMV-MP . Collectively, these studies establish the pleiotropic nature of the TMV-MP in transgenic tobacco, and the results are discussed in terms o f potential sites of interaction between the TMV-MP and endogenous pro cesses involved in regulating carbon metabolism and export.