RELEASE AND ACTIVATION OF BARLEY β‐AMYLASE

The aim of this study was to determine the role of low molecular weight thiols both in the release and activation of β‐amylase during grain germination. In quiescent barley grains ( Hordeum vulgare L. cv. Torrent) about 55% of the β‐amylase was extracted with buffer, the remaining 45% was in the bound form. During micromalting the bound form was progressively solubilised between germination days 1 and 4. When free β‐amylase, extracted from ungerminated grains, was incubated with dithiothreitol the enzymic activity increased by 15%‐20%. This activation did not occur when free β‐amylase, from grain germinated for 3 days or more, was incubated with DTT. The release of bound β‐amylase with thiols was pH dependant, occurring most rapidly at and above pH 8.0. At the onset of germination the embryo released soluble thiol (approximately 5 nmol per embryo) into the endosperm. Degermed grains were dosed with reduced glutathione and incubated for 72 h. The addition of 60 nmol glutathione caused the release of about 80% of the bound β‐amylase. When less glutathione was used, 5 nmol (an amount similar to that released by the embryo in vivo ) no significant release of the bound enzyme was detected. When degermed grains were dosed with oxidised glutathione (60 nmol), no bound β‐amylase was released. However, addition of the disulphide bis‐hydroxyethyldisulphide (60 nmol) did cause the release of about 90% of the bound enzyme. The aleurone layer reduced the bis‐hydroxyethyldisulphide to a thiol, presumably 2‐mercaptoethanol. Oxidised glutathione and cystine were not significantly reduced to thiols by isolated aleurone layers. The aleurone layer did cause the disappearance of cysteine from solution. When preparations of bound β‐amylase were incubated with extracts from the endosperms of grains germinated for three days, the bound enzyme was released. This release was due to the high molecu lar weight material (>5 kDa) in the extract and not to low molecular weight thiols. It seems unlikely that simple thiols, such as glutathione, are solely responsible for the release of bound β‐amylase.