AI Article Synopsis
- β-Amylase is an enzyme from sweet potato that breaks down polysaccharides by removing maltose units from their non-reducing ends and belongs to the glycoside hydrolase GH14 family, operating through a process called inversion.
- The study measured the enzyme's efficiency on different substrates (DP 3-13) using HPLC, finding that catalytic efficiency improved with longer substrates while processive cleavage occurred on all but the shortest ones.
- Notably, the research revealed a unique transglycosylation process where the enzyme also rebuilt substrates during hydrolysis, resulting in a significant increase in substrate concentration, indicating a high yield of transglycosylation.
Article Abstract
β-Amylase (EC 3.2.1.2), one of the main protein of the sweet potato, is an exo-working enzyme catalyzing the hydrolysis of α(1,4) glycosidic linkages in polysaccharides and removes successively maltose units from the non-reducing ends. The enzyme belongs to glycoside hydrolase GH14 family and inverts the anomeric configuration of the hydrolysis product. Multiple attack or processivity is an important property of polymer active enzymes and there is still limited information about the processivity of carbohydrate active enzymes. Action pattern and kinetic measurements of sweet potato β-amylase were made on a series of aromatic chromophor group-containing substrates (degree of polymerization DP 3-13) using HPLC method. Measured catalytic efficiencies increased with increasing DP of the substrates. Processive cleavage was observed on all substrates except the shortest pentamer. The mean number of steps without dissociation of enzyme-product complex increases with DP of substrate and reached 3.3 in case of CNPG11 indicating that processivity on longer substrates was more significant. A unique transglycosylation was observed on those substrates, which suffer processive cleavage and the substrates were re-built by the enzyme. Our results are the first presentation of a transglycosylation during an inverting glycosidase catalyzed hydrolysis. The yield of transglycosylation was remarkable high as shown in the change of the CNPG11 quantity. The CNPG11 concentration was doubled (from 0.24 to 0.54mM) in the early phase of the reaction.
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| http://dx.doi.org/10.1016/j.bbapap.2013.06.017 | DOI Listing |
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