THE EFFECT OF GLUCOSE ON THE CONTROL OF CARBOHYDRATE-METABOLISM IN RIPENING BANANAS

The effect of exogenous glucose on the major fluxes of carbohydrate metabolism in cores of climacteric fruit of banana (Musa cavendishii Lamb ex Paxton) was determined with the intention of using the effects in the application of top-down metabolic control analysis. Hands of bananas, untreated with ethylene, were allowed to ripen in the dark at 21 degrees C. Cores were removed from climacteric fruit and incubated in 100 or 200 mM glucose for 4 or 6 h. The rates of starch breakdown, sucrose and fructose accumulation and CO2 production were measured. The steady-state contents of hexose monophosphates, adenylates and pyruvate were determined. In addition, the detailed distribution of label was determined after supply of the following: [U-C-14]-, [1-C-14]-, [3,4-C-14]- and [6-C-14]glucose, and [U-C-14]glycerol. The data were used to estimate the major fluxes of carbohydrate metabolism. Supply of exogenous glucose led to increases in the size of the hexose-monophosphate pools. There was a small stimulation of the rate of sugar synthesis and a major increase in the rate of starch synthesis. Starch breakdown was inhibited, Respiration responded to the demand for ATP by sugar synthesis. The effect of glucose on fluxes and metabolite pools is discussed in relation to our understanding of the control and regulation of carbohydrate metabolism in ripening fruit.