https://www.selleckchem.com/products/ikk-16.html
01) and A11, L130, and L263 were determined as the active sites of UGPase-1719 (P less then 0.01). In addition, UGPase overexpression could increase the production of polysaccharides and the survival rates of recombinant bacteria after freeze-drying. This is the first study to determine the enzymatic properties, active sites, and structural simulation of UGPases from L. acidophilus, providing in-depth understanding of the biological characteristics of UGPases in lactic acid bacteria.Key points• We detected the biological characteristic
Like
Comment
Share
