Computational design of Lactobacillus Acidophilus α-L-rhamnosidase to increase its structural stability

Abstract: α-L-rhamnosidase catalyzes hydrolysis of the terminal α-L-rhamnose from various natural rhamnoglycosides, including naringin and hesperidin, and has various applications such as debittering of citrus juices in the food industry and flavonoid derhamnosylation in the pharmaceutical industry. However, its activity is lost at high temperatures, limiting its usage. To improve Lactobacillus acidophilus α-L-rhamnosidase stability, we employed molecular dynamics (MD) to identify a highly flexible region, as evaluated … Show more

Modification of structure, epitope and allergenicity on heat-stressed ovalbumin by resveratrol

Modification of structure, epitope and allergenicity on heat-stressed ovalbumin by resveratrol

Targeted drug delivery to the thrombus by fusing streptokinase with a fibrin-binding peptide (CREKA): an in silico study