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Kinetic studies on the role of Lys-171 and Lys-358 in the beta subunit of sarcosine oxidase from Corynebacterium sp. U-96.

Journal of biochemistry (2007-03-31)
Mutsumi Saito, Miho Kanno, Haruo Iizuka, Haruo Suzuki
ABSTRAKT

Heterotetrameric sarcosine oxidase from Corynebacterium sp.U-96(SO-U96) contains non-covalent and covalent flavins. Lys-358 and Lys-171 in the beta subunit is present at non-covalent flavin adenine dinucleotide (FAD)- and covalent flavin monodinucleotide (FMN)-binding sites, respectively. The Lys-358 mutant, K358R showed 0.07% activity and higher apparent K(m) for sarcosine than the wild-type enzyme, but K358A and K358D mutants showed no activity, suggesting the importance of amino group of Lys358 in the sarcosine-binding to the enzyme. The Lys171 mutants, K171R, K171A and K171D showed 58, 39 and 32% activity of the wild-type enzyme, respectively. An apparent K(m) for oxygen and K(d) of enzyme-sulphite complex increased by the mutation. The rate of reduction of the FAD of K171 mutants with sarcosine did not change by the mutation. The stopped-flow photodiode array analyses of the anaerobic reduction with sarcosin of the wild-type and K171 mutant enzymes showed characteristic spectra of neutral and anionic semiquinones, especially for K171A enzyme. On the basis of these results, the reductive-half reaction of the wild-type and K171 mutant enzymes is explained by a mechanism involving the semiquinones. Low activity of K171 mutants is suggested to be derived from the low rate of oxidation of the reduced FMN in the enzyme.

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Sigma-Aldrich
Sarcosine Oxidase from Bacillus sp., lyophilized powder, 25-50 units/mg solid