Multiple forms of (1 → 4)-α- d-glucan, (1 → 4)-α- d-glucan-6- glycosyl transferase from developing zea mays L. Kernels

Abstract

Two major forms of branching enzyme from developing kernels of maize have been detected after DEAE-cellulose chromatography. Branching-enzyme I, which contained 24% of the activity based on a phosphorylase-stimulation assay, but 74% of the activity based on the branching of amylose as monitored by change in spectra of the iodine-glucan complex, eluted with the column wash and was unassociated with starch-synthase activity. Branching-enzyme II was bound to DEAE-cellulose and was coeluted with both primed and unprimed starch-synthase activities. Both fractions were further purified by chromatography on aminoalkyl-Sepharose columns. Single peaks were observed for both fractions by gel filtration on BioGel A 1.5m columns and native molecular weights were estimated at 70,000–90,000 for both enzymes. Subunit molecular weights of branching-enzymes I and II were estimated by dodecyl sodium sulfate-gel electrophoresis at 89,000 and 80,000, respectively. Thus both enzymes are primarily monomeric. Branching-enzymes I and II could be distinguished by chromatography on DEAE-cellulose or 4-aminobutyl-Sepharose, and by disc-gel electrophoresis with activity staining. Branching-enyme I had a lower ratio of activity (phosphorylase stimulation-amylose branching; based on enzyme units). The ratio varied from 30–60 as compared to about 300–500 for branching-enzyme II. Likewise, branching-enzyme I had a lower K m value for amylose than branching- enzyme II, the values being 160 and 500 μg/ml, respectively. Both enzymes could introduce further branches into amylopectin, as decreases in the overall absorption and wavelength maxima of the iodine complexes were observed. Combined action of the branching enzymes and rabbit-muscle phosphorylase a (12:1 ratio based on enzyme units) resulted in similar patterns of incorporation of d-glucose into the growing α- d-glucan and the synthesis of high molecular-weight polymers. However, the α- d-glucans differed, as shown by spectra of iodine complexes and average unit-chain length. Branching-enzyine II was separated into two fractions (IIa and IIb) by chromatography on 4-aminobutyl-Sepharose. These Fractions differed only in the branching of amylopectin, fractional IIb being more active than IIa.