Micellar enzymology

Martínek, Karel; Levashov, Andrey V.; Klyachko, N. L.; KHMELNITSKI, Yuri L.; Березин, И.В.

doi:10.1111/j.1432-1033.1986.tb09512.x

Cited by 548 publications

(270 citation statements)

References 245 publications

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“…The reaction between ethyl propionate and n-propanol was studied under the same conditions of flow rate and enzyme quantities. For these experiments, the substrate flow rates were 15…”

Section: Resultsmentioning

confidence: 99%

Gas phase transesterification reactions catalyzed by lipolytic enzymes

Parvaresh

Robert

Thomas

et al. 1992

Biotech & Bioengineering

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Porcine pancreatic lipase and Fusarium solani cutinase were used t o catalyze transesterification reactions between methyl propionate, ethyl propionate, and a series of primary alcohols at high temperatures in a continuous packed-bed gas-solid reactor, in which the solid phase is composed of the enzyme and the substrates and products are in a gaseous form. In this type of system, enzyme activity was found to depend essentially on the water activity (A,) of the enzyme preparation.

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“…The reaction between ethyl propionate and n-propanol was studied under the same conditions of flow rate and enzyme quantities. For these experiments, the substrate flow rates were 15…”

Section: Resultsmentioning

confidence: 99%

Gas phase transesterification reactions catalyzed by lipolytic enzymes

Parvaresh

Robert

Thomas

et al. 1992

Biotech & Bioengineering

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“…The use of enzymes in reverse micelles and microemulsions is a developing area [1][2][3]. In [4], we described the behavior of horse liver alcohol dehydrogenase in microemulsions made of ionic detergents: SDS and cetyltrimethylammonium bromide.…”

Section: Introductionmentioning

confidence: 99%

Enzyme and organic solvents: Horse liver alcohol dehydrogenase in non‐ionic microemulsion: Stability and activity

Lee

Biellmann

1987

FEBS Letters

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In a microemulsion made with Triton X-100, the stability of the enzymatic activity was higher than in ionic microemulsions. The stability increased with water content. The kinetic constants (Michaelis constant of NAD ÷ and maximum velocity) were close to those found in the previously studied microemulsions. The Michaelis constant of NAD ÷ expressed with respect to the buffer volume was higher than in water. The pH dependence of the kinetic constants in this microemulsion was determined. The activity determined by NAD ÷ reduction decreased with water content, whereas the redox activity determined via butanol oxidation coupled to retinal reduction was only slightly reduced.

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“…The new burst of interest in these enzyme-containing micellar systems, as already mentioned in recent review articles [ 1,2], lies in the biotechnological applications and in the study of fundamental properties of enzymes. Although a number of enzymes have been investigated in such media, most work has been carried out on hydrolases (a-chymotrypsin and lipases) and dehydrogenases but not on oxidases [l].…”

Section: Introductionmentioning

confidence: 99%

Kinetic properties of polyphenoloxidase in organic solvents A study in Brij 96‐cyclohexane reverse micelles

1988

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Polyphenoloxidase entrapped in Brij 96-cyclohexame reverse micelles showed both cresolase activity towards monophenols and catecholase activity towards diphenols. The kinetic parameters, such as apparent K,,,, temperature effect and pH profile, were determined for catecholase activity, the findings being very close to those found in aqueous systems. The enzyme activity was dependent on the molecular ratio of water to surfactant (o,), obtaining a maximum activity at o, = IO. The stability of the system with time increased with the water content until W, = 10, and then decreased. An inverse relation was found between activity and water volume fraction (6)

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Micellar enzymology

Cited by 548 publications

References 245 publications

Gas phase transesterification reactions catalyzed by lipolytic enzymes

Gas phase transesterification reactions catalyzed by lipolytic enzymes

Enzyme and organic solvents: Horse liver alcohol dehydrogenase in non‐ionic microemulsion: Stability and activity

Kinetic properties of polyphenoloxidase in organic solvents A study in Brij 96‐cyclohexane reverse micelles

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