Antisense-inhibition of ADP-glucose pyrophosphorylase in Vicia narbonensis seeds increases soluble sugars and leads to higher water and nitrogen uptake

Abstract.

We previously reported on Vicia narbonensis seeds with largely decreased α-D-glucose-1-phosphate adenyltransferase (AGP; EC 2.7.7.27) due to antisense inhibition [H. Weber et al. (2000) Plant J 24:33–43]. In an extended biochemical analysis we show here that in transgenic seeds both AGP activity and ADP-glucose levels were strongly decreased but starch was only moderately reduced and contained less amylose. The flux control coefficient of AGP to starch accumulation was as low as 0.08, i.e. AGP exerts low control on starch biosynthesis in Vicia seeds. Mature cotyledons of antisense seeds had increased contents of lipids, nitrogen and sulfur. The protein content was higher due, in particular, to increased sulfur-rich albumins. Globulin fractions of storage proteins had a lower ratio of legumin to vicilin. Isolated cotyledons partitioned less [¹⁴C]sucrose into starch and more into soluble sugars with no change in the protein fraction. Respiration of isolated cotyledons and activities of the major glycolytic and carbohydrate-metabolizing enzymes were not affected. Sucrose and the hexose-phosphate pool were increased but UDP-glucose, 3-phosphoglyceric acid, phosphoenolpyruvate, pyruvate, ATP and ADP were unchanged or even lower, indicating that carbon partitioning changed from starch to sucrose without affecting the glycolytic and respiratory pathways. Soluble compounds were increased but osmolality remained unchanged, indicating compensatory water influx resulting in higher water contents. Developmental patterns of water and nitrogen accumulation suggest a coupled uptake of amino acids and water into cotyledons. We conclude that, due to higher water uptake, transgenic cotyledons take up more amino acids, which become available for protein biosynthesis leading to a higher protein content. Obviously, a substantial part of amino acid uptake into Vicia seeds occurs passively and is osmotically controlled and driven by water influx.