Your search keyword '"*FLAVINS"' showing total 4 results

1. Electrochemical sensor with flavin-containing monooxygenase for triethylamine solution.

Author

Hirokazu Saito, Takeshi Shirai, Hiroyuki Kudo, and Kohji Mitsubayashi

Subjects

*ELECTROCHEMICAL sensors, *BIOSENSORS, *FLAVINS, *VITAMIN C, *MONOOXYGENASES

Abstract

A bioelectronic sensor for triethylamine (TEA) was developed with a flavin-containing monooxygenase type 3 (FMO-3). The TEA biosensor consisted of a Clark-type dissolved-oxygen electrode and an FMO-3 immobilized membrane. The FMO-3 solution was mixed with a poly(vinyl alcohol) containing stilbazolium groups (PVA-SbQ), coated on to the dialysis membrane, and the membrane was irradiated with a fluorescent light to immobilize the enzyme. In order to amplify the biosensor output, a substrate regeneration cycle, obtained by coupling the monooxygenase with l-ascorbic acid (AsA) as reducing reagent system, was applied. The effect of pH on the determination of TEA was studied. The maximum response was achieved at pH >9.0. A drop of the phosphate buffer solution with the AsA was put on the sensing area of the oxygen electrode, and the FMO-3 immobilized membrane was placed on the oxygen electrode and covered with a supporting Nylon mesh net which was secured with a silicone O-ring. A measurement system for TEA solution was constructed using the FMO-3 biosensor, a personal computer, a computer-controlled potentiostat, and an A/D converter. The FMO-3 biosensor was used to measure TEA solution from 0.5 to 4.0 mmol L−1 with 10.0 mmol L−1 AsA. The biosensor also had good reproducibility, for example a 6.31% coefficient of variation for five measurements, and the output current was maintained over a few hours. In order to improve the selectivity of the TEA biosensor, three type of biosensor with FMO isomer types 1, 3, and 5 were constructed and used to measure nitrogen and sulfur compounds. The outputs of the isomer biosensors indicated individual patterns for each sample solution. The selectivity of TEA biosensor would be improved, and determination of sulfur and nitrogen compounds would be possible, by using the different output of biosensors prepared from different FMO isomers. [ABSTRACT FROM AUTHOR]

Published

2008

2. A low perfusion rate microreactor for continuous monitoring of enzyme characteristics: application to glucose oxidase.

Author

Posthuma-Trumpie, G. A., Venema, K., Van Berkel, W. J. H., and Korf, J.

Subjects

*MICROREACTORS, *OXIDASES, *FLAVINS, *GLUCOSE, *ELECTROCHEMICAL sensors, *ENZYMES

Abstract

This report describes a versatile and robust microreactor for bioactive proteins physically immobilized on a polyether sulfone filter. The potential of the reactor is illustrated with glucose oxidase immobilized on a filter with a cut-off value of 30 kDa. A flow-injection system was used to deliver the reactants and the device was linked on-line to an electrochemical detector. The microreactor was used for on-line preparation of apoglucose oxidase in strong acid and its subsequent reactivation with flavin adenine dinucleotide. In addition we describe a miniaturized version of the microreactor used to assess several characteristics of femtomole to attomole amounts of glucose oxidase. A low negative potential over the electrodes was used when ferrocene was the mediator in combination with horseradish peroxidase, ensuring the absence of oxidation of electro-active compounds in biological fluids. A low backpressure at very low flow rates is an advantage, which increases the sensitivity. A variety of further applications of the microreactor are suggested. [Figure not available: see fulltext.] [ABSTRACT FROM AUTHOR]

Published

2007

3. A new role for an old cofactor.

Author

Miller, Susan M.

Subjects

*FLAVINS, *COENZYMES, *ENZYMES, *CATALYSIS, *BIOSYNTHESIS, *BIOCHEMISTRY

Abstract

Discusses the role of the reduced flavin cofactor as a nucleophile in the catalytic reaction of uridine 5'-diphosphate (UDP)-galactopyranose mutase. Catalysis of the intercenversion of the alpha-pyranose and alpha-furanose forms of UDP-galactose; Precursor for the biosynthetic pathway of cell wall and lipopolysaccharide components of several human pathogens that incorporate galactofuranose into these cellular macromolecules.

Published

2004

4. Abstractions.

Subjects

*BIOLOGISTS, *ENZYMES, *COMPLEX compounds, *FLAVINS, *BIOSYNTHESIS

Abstract

The article presents biologist Graham Walker and his colleagues who identify the role of bacterial enzyme BluB in DMB formation and prove that this enzyme catalyses complex and novel chemistry - including the cannibalization of flavin. Several questions like identifying the enzymes in the DMB biosynthetic pathway, surprising factor of the enzyme and others are handled by the biologists.

Published

2007