Cellulase is a compound enzyme that catalyzes cellulose into monosaccharides or oligosaccharides. Large amounts of cellulase are needed with the development of the lignocellulose processing industry, which necessitates faster methods to produce cellulase. In this work, the marine bacterium Microbulbifer hydrolyticus IRE-31-192 was selected to produce cellulase, due to its fast growth rate and short high space-time yield. Co-fermentation of glucose and xylose to produce cellulase was investigated on the basis of previous work. When the ratio of glucose/xylose was 2:1 (w/w), 294 U/L cellulase activity with highest space-time yield of 12.2 U/L h was obtained. The hydrolytic liquid of lignocellulose prepared from dried distiller’s grains with solubles (DDGS) with the similar ratio of glucose/xylose was used as medium to produce cellulase. The efficiency of cellulase production from processed and unprocessed hydrolysates of DDGS was compared. Unprocessed hydrolysates were more beneficial for the production of cellulase, such that its activity was 261 U/L with a space-time yield of 14.5 U/L h. Thus, commonly used pure glucose and xylose could be replaced by hydrolysates of DDGS, and marine bacteria has potential application for cellulase production.
Enzymatic synthesis of 10-oxostearic acid in high space-time yield via cascade reaction of a new oleate hydratase and an alcohol dehydrogenase
