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  • Dissecting differential binding of fructose and phosphate as leaving group/nucleophile of glucosyl transfer catalyzed by sucrose phosphorylase.

Dissecting differential binding of fructose and phosphate as leaving group/nucleophile of glucosyl transfer catalyzed by sucrose phosphorylase.

FEBS letters (2007-07-31)
Mario Mueller, Bernd Nidetzky
ANOTACE

Site-directed mutagenesis was used to examine the specificity of Leuconostoc mesenteroides sucrose phosphorylase for utilization of fructose and phosphate as leaving group/nucleophile of the reaction. The largest catalytic defect in Arg(137)-->Ala (approximately 60-fold) and Tyr(340)-->Ala (approximately 2500-fold) concerned phosphate dependent half-reactions whereas that in Asp(338)-->Asn (approximately 7000-fold) derived from disruption of steps where fructose departs or attacks. The relative efficiencies for enzyme glucosylation by sucrose compared with alpha-d-glucose-1-phosphate and enzyme deglucosylation by phosphate compared with fructose were 5.5 and 6.2 for wild-type, 19 and 2.0 for Arg(137)-->Ala, 950 and 0.17 for Tyr(340)-->Ala, and 0.05 and 180 for Asp(338)-->Asn, respectively. Asp(338) and Tyr(340) have a key role in differential binding of fructose and phosphate, respectively.

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Sigma-Aldrich
Sucrose Phosphorylase, recombinant, expressed in E. coli, lyophilized powder, ≥45 units/mg solid