Precise body and organ sizes in the adult animal are ensured by a range of signaling pathways. In a screen to identify genes affecting hindgut morphogenesis in Drosophila, we identified a P-element insertion in dRheb, a novel, highly conserved member of the Ras superfamily of G-proteins. Overexpression of dRheb in the developing fly (using the GAL4:UAS system) causes dramatic overgrowth of multiple tissues: in the wing,this is due to an increase in cell size; in cultured cells, dRheboverexpression results in accumulation of cells in S phase and an increase in cell size. Using a loss-of-function mutation we show that dRheb is required in the whole organism for viability (growth) and for the growth of individual cells. Inhibition of dRheb activity in cultured cells results in their arrest in G1 and a reduction in size. These data demonstrate that dRheb is required for both cell growth (increase in mass) and cell cycle progression; one explanation for this dual role would be that dRheb promotes cell cycle progression by affecting cell growth. Consistent with this interpretation, we find that flies with reduced dRheb activity are hypersensitive to rapamycin, an inhibitor of the growth regulator TOR. In cultured cells, the effect of overexpressing dRheb was blocked by the addition of rapamycin. These results imply that dRheb is involved in TOR signaling.
Post-translational modi®cation of proteins by the addition of a farnesyl group is critical for the function of a number of proteins involved in signal transduction. Farnesylation facilitates their membrane association and also promotes protein±protein interaction. Recently, progress has been made in understanding the biological signi®cance of farnesylation. First, effects of farnesyltransferase inhibitors (FTIs) on cancer cells have been examined using a variety of human cancer cells. This study showed that one of the major effects of FTIs is to alter cell cycle progression. Both G0/G1 enrichment and G2/M accumulation were observed depending on the cell line examined. Second, a number of novel farnesylated proteins have been characterized. Of these, Rheb and CENP-E,F are of particular interest. Rheb, a novel member of the Ras superfamily G-proteins, may play a role in the G1 phase of the cell cycle. CENP-E,F are centromere associated motors that play critical roles in mitosis. These results suggest important contributions of farnesylated proteins in the regulation of cell cycle progression.
Protein l-isoaspartyl methyltransferase is a widely distributed repair enzyme that initiates the conversion of abnormal l-isoaspartyl residues to their normal l-aspartyl forms. Here we show that this activity is expressed in developing corn (Zea mays) and carrot (Daucus carota var. Danvers Half Long) plants in patterns distinct from those previously seen in winter wheat (Triticum aestivum cv Augusta) and thale cress (Arabidopsis thaliana), whereas the pattern of expression observed in rice (Oryza sativa) is similar to that of winter wheat. Although high levels of activity are found in the seeds of all of these plants, relatively high levels of activity in vegetative tissues are only found in corn and carrot. The activity in leaves was found to decrease with aging, an unexpected finding given the postulated role of this enzyme in repairing age-damaged proteins. In contrast with the situation in wheat and Arabidopsis, we found that osmotic or salt stress could increase the methyltransferase activity in newly germinated seeds (but not in seeds or seedlings), whereas abscisic acid had no effect. We found that the corn, rice, and carrot enzymes have comparable affinity for methyl-accepting substrates and similar optimal temperatures for activity of 45°C to 55°C as the wheat and Arabidopsis enzymes. These experiments suggest that this enzyme may have specific roles in different plant tissues despite a common catalytic function.
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