Stability of alanine aminotransferase is enhanced by chemical modification

Southern pine, aspen, and Douglas-fir flakes were reacted with either butylene oxide/triethyl~mine or acetic anhydride for various reaction times to give levels of bonded chemicals up to 25 weight percent gain. Flakes modified to 20 weight percent gain with butylene oxide gave a flakeboard which abs

Carboxymethylcellulose activated by periodate oxidation was covalently linked to porcine pancreatic a-amylase (EC 3.2.1.1). The speci®c activity of the conjugate prepared was 54% of the native enzyme. The carbohydrate content was estimated to be 62% by weight as a result of the modi®cation of 67% of

Background: Enzymes show relative instability in solvents or at elevated temperature and lower activity in organic solvent than in water. These limit the industrial applications of enzymes. ## Results: In order to improve the activity and stability of chloroperoxidase, chloroperoxidase was modifi

Cross-linking chemical modification of pyrroloquinoline quinone (PQQ) glucose dehydrogenase (GDH) by glutaraldehyde was carried out and its stability was analyzed. Although native PQQGDH was inactivated within 30 min at a higher temperature than 50 cross-linked PQQGDH retained more than 40% of initi