Comparison of wheat albumin inhibitors of α-amylase and trypsin

Abstract

Wheat albumins were extracted from whole wheat flour with 150 mM sodium chloride solution and precipitated between 0·4 and 1·8 M ammonium sulphate. The albumin precipitate was separated by gel filtration on Sephadex G100 into five peaks. Three peaks (II, III, and IV), whose MWs were 60 000, 24 000 and 12 500 daltons respectively, were active toward several insect α-amylases, whereas only peak III inhibited human saliva and pancreatic α-amylases. Peaks III and IV also inhibited trypsin. In each active peak, we found several α-amylase inhibitors slightly different in their electrophoretic mobilities in a Tris—glycine buffer system (pH 8·5), whereas only one major trypsin inhibitor was present in peaks III and IV. In contrast to α-amylase inhibitors that were all anodic, trypsin inhibitors migrated to the cathode under our experimental conditions. From a quantitative standpoint, wheat albumins that inhibit trypsin are negligible, whereas about 2/3 of the total albumin inhibits amylases from different origins. All inhibitor components of peak III were active toward both insect and mammalian α-amylases. Moreover, they reversibly dissociated in the presence of 6 M guanidine hydrochloride giving two similar subunits.