Takashi Kimura, M. Ogata, M. Yoshida
Aug 20, 1988
Citations
0
Influential Citations
22
Citations
Journal
Biotechnology and Bioengineering
Abstract
A continuous production process of maltotetraose was investigated by using immobilized maltotetraose (G4)‐ forming amylase (1,4‐α‐D‐glucan maltotetraohydrolase, EC3.2.1.60) from Pseudomonas stutzeri adsorbed on a macroporous hydrophobic resin. The maximum reaction rate was obtained at 55°C and the activation energy of hydrolysis by immobilized G4‐forming amylase was calculated to be 8.45 kcal/mol. The maltotetraose yield was greatly influenced by the flow rate of substrate solution, its concentration, and the immobilized enzyme activity. The newly defined factor “specific space velocity” was successfully introduced to normalize the operating parameters. Using this factor, the immobilized enzyme reactor then can be simulated and the operating dynamics can be determined.