Protein Modification and Utilization of Starch in Soybean (Glycine max L. Merr.) Seed Maturation

Seeds of soybean (Glycine max L. Merr.) harvested at variousstages of development and allowed to dry in intact pods undergoa maturation process and are viable. Defatted powders of seedharvested 24–66 d after flowering were extracted to yieldbuffer-soluble and alkali-soluble proteins. Imposition of amaturation process increased the level of buffer-soluble proteinsbut had no effect on the disulflde content of these proteins.After undergoing maturation, seeds showed an accumulation ofbuffer-soluble polypeptides in the molecular weight range of43–94 kD. Maturation may be associated with the synthesisof specific polypeptides having a molecular weight of approximately85 kD. Alkali-soluble proteins, which represents the storageproteins, did not show any responses to maturation. Their quantityincreased substantially during seed development and the disulfidelevel was only half that of buffer-soluble proteins, attaininga maximum value of 10.9 mol S per 10⁵ g protein. Matured seedat all harvest dates had a final starch content close to thatof normal seed, 10–20 mg g^–1, and soluble sugarswere maintained at quite high levels, 51–83 mg g^–1.The metabolic program for synthesis and degradation of starchseems quite rigidly followed and is independent of harvest dateor of attachment to the parent plant. Soybean seeds retain considerablesoluble proteins and soluble sugars throughout maturation, andthese collectively may be important in maintaining a desiccationresistant structure.