Reaction rate with suspended lipase catalyst shows similar dependence on water activity in different organic solvents

“…[17][18][19][20] We tested nine organic solvents for capsinoid synthesis when catalyzed by Novozym 435 ( Table 2). The conversion yields reached equilibrium at 70.9-78.0z within 0.5 h with most of the solvents used except for hexane and chloroform.…”

Enzymatic Synthesis of a Capsinoid by the Acylation of Vanillyl Alcohol with Fatty Acid Derivatives Catalyzed by Lipases

“…[17][18][19][20] We tested nine organic solvents for capsinoid synthesis when catalyzed by Novozym 435 ( Table 2). The conversion yields reached equilibrium at 70.9-78.0z within 0.5 h with most of the solvents used except for hexane and chloroform.…”

Enzymatic Synthesis of a Capsinoid by the Acylation of Vanillyl Alcohol with Fatty Acid Derivatives Catalyzed by Lipases

“…The methodology for determining catalyst activity at known (pre-equilibrated) a, was as described previously (Valivety et al, 1992a). The rationale and reliability of this method was fully discussed there.…”

Relationship between water activity and catalytic activity of lipases in organic media

“…If the amount of water required for biocatalysis is expressed as the amount of water bound to the enzyme particles, an optimum in activity is found independent of the solvent used (Zaks and Klibanov, 1988b). An alternative way to explain the difference in the amount of water required in hydrophobic and hydrophilic solvents is that hydrophilic solvents require more water to reach the same water activity (a,) (Valivety et al, 1992a). The water bound by the enzyme particles is likely to be a function of the a, (Halling, 1990) and as a consequence the a, is likely to be a good predictor of the reaction rate.…”

Biocatalysis in non-conventional media: Medium engineering aspects (Technical Report)