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Results: 1-25 | 26-31
Results: 1-25/31
Enzymatic redox isomerization of 1,6-disaccharides by pyranose oxidase andNADH-dependent aldose reductase
Authors: Leitner, C Mayr, P Riva, S Volc, J Kulbe, KD Nidetzky, B Haltrich, D
Citation: C. Leitner et al., Enzymatic redox isomerization of 1,6-disaccharides by pyranose oxidase andNADH-dependent aldose reductase, J MOL CAT B, 11(4-6), 2001, pp. 407-414
Oxyanion-mediated protein stabilization: Differential roles of phosphate for preventing inactivation of bacterial alpha-glucan phosphorylases
Authors: Griessler, R Pickl, M D'Auria, S Tanfani, F Nidetzky, B
Citation: R. Griessler et al., Oxyanion-mediated protein stabilization: Differential roles of phosphate for preventing inactivation of bacterial alpha-glucan phosphorylases, BIOCATAL B, 19(5-6), 2001, pp. 379-398
Fungal trehalose phosphorylase: kinetic mechanism, pH-dependence of the reaction and some structural properties of the enzyme from Schizophyllum commune
Authors: Eis, C Watkins, M Prohaska, T Nidetzky, B
Citation: C. Eis et al., Fungal trehalose phosphorylase: kinetic mechanism, pH-dependence of the reaction and some structural properties of the enzyme from Schizophyllum commune, BIOCHEM J, 356, 2001, pp. 757-767
Production of a lactose-free galacto-oligosaccharide mixture by using selective enzymatic oxidation of lactose into lactobionic acid
Authors: Splechtna, B Petzelbauer, I Baminger, U Haltrich, D Kulbe, KD Nidetzky, B
Citation: B. Splechtna et al., Production of a lactose-free galacto-oligosaccharide mixture by using selective enzymatic oxidation of lactose into lactobionic acid, ENZYME MICR, 29(6-7), 2001, pp. 434-440
Galactosyl transfer catalyzed by thermostable beta-glycosidases from Sulfolobus solfataricus and Pyrococcus furiosus: Kinetic studies of the reactions of galactosylated enzyme intermediates with a range of nucleophiles
Authors: Petzelbauer, I Splechtna, B Nidetzky, B
Citation: I. Petzelbauer et al., Galactosyl transfer catalyzed by thermostable beta-glycosidases from Sulfolobus solfataricus and Pyrococcus furiosus: Kinetic studies of the reactions of galactosylated enzyme intermediates with a range of nucleophiles, J BIOCHEM, 130(3), 2001, pp. 341-349
Exploring the active site of yeast xylose reductase by site-directed mutagenesis of sequence motifs characteristic of two dehydrogenase/reductase family types
Authors: Klimacek, M Szekely, M Griessler, R Nidetzky, B
Citation: M. Klimacek et al., Exploring the active site of yeast xylose reductase by site-directed mutagenesis of sequence motifs characteristic of two dehydrogenase/reductase family types, FEBS LETTER, 500(3), 2001, pp. 149-152
Structural and functional properties of aldose xylose reductase from the D-xylose-metabolizing yeast Candida tenuis
Authors: Nidetzky, B Mayr, P Neuhauser, W Puchberger, M
Citation: B. Nidetzky et al., Structural and functional properties of aldose xylose reductase from the D-xylose-metabolizing yeast Candida tenuis, CHEM-BIO IN, 130(1-3), 2001, pp. 583-595
Transient-state and steady-state kinetic studies of the mechanism of NADH-dependent aldehyde reduction catalyzed by xylose reductase from the yeast Candida tenuis
Authors: Nidetzky, B Klimacek, M Mayr, P
Citation: B. Nidetzky et al., Transient-state and steady-state kinetic studies of the mechanism of NADH-dependent aldehyde reduction catalyzed by xylose reductase from the yeast Candida tenuis, BIOCHEM, 40(34), 2001, pp. 10371-10381
D-Xylose metabolism by Candida intermedia: isolation and characterisation of two forms of aldose reductase with different coenzyme specificities
Authors: Mayr, P Bruggler, K Kulbe, KD Nidetzky, B
Citation: P. Mayr et al., D-Xylose metabolism by Candida intermedia: isolation and characterisation of two forms of aldose reductase with different coenzyme specificities, J CHROMAT B, 737(1-2), 2000, pp. 195-202
Thermal denaturation pathway of starch phosphorylase from Corynebacterium callunae: Oxyanion binding provides the glue that efficiently stabilizes the dimer structure of the protein
Authors: Griessler, R D'Auria, S Tanfani, F Nidetzky, B
Citation: R. Griessler et al., Thermal denaturation pathway of starch phosphorylase from Corynebacterium callunae: Oxyanion binding provides the glue that efficiently stabilizes the dimer structure of the protein, PROTEIN SCI, 9(6), 2000, pp. 1149-1161
Synthesis of 5,6-dimodified open-chain D-fructose derivatives and their properties as substrates of bacterial polyol dehydrogenase
Authors: Hadwiger, P Mayr, P Nidetzky, B Stutz, AE Tauss, A
Citation: P. Hadwiger et al., Synthesis of 5,6-dimodified open-chain D-fructose derivatives and their properties as substrates of bacterial polyol dehydrogenase, TETRAHEDR-A, 11(2), 2000, pp. 607-620
Role of non-covalent enzyme-substrate interactions in the reaction catalysed by cellobiose phosphorylase from Cellulomonas uda
Authors: Nidetzky, B Eis, C Albert, M
Citation: B. Nidetzky et al., Role of non-covalent enzyme-substrate interactions in the reaction catalysed by cellobiose phosphorylase from Cellulomonas uda, BIOCHEM J, 351, 2000, pp. 649-659
Mechanism of thermal denaturation of maltodextrin phosphorylase from Escherichia coli
Authors: Griessler, R D'Auria, S Schinzel, R Tanfani, F Nidetzky, B
Citation: R. Griessler et al., Mechanism of thermal denaturation of maltodextrin phosphorylase from Escherichia coli, BIOCHEM J, 346, 2000, pp. 255-263
Transgalactosylation by thermostable beta-glycosidases from Pyrococcus furiosus and Sulfolobus solfataricus - Binding interactions of nucleophiles with the galactosylated enzyme intermediate make major contributions to the formation of new beta-glycosides during lactose conversion
Authors: Petzelbauer, I Reiter, A Splechtna, B Kosma, P Nidetzky, B
Citation: I. Petzelbauer et al., Transgalactosylation by thermostable beta-glycosidases from Pyrococcus furiosus and Sulfolobus solfataricus - Binding interactions of nucleophiles with the galactosylated enzyme intermediate make major contributions to the formation of new beta-glycosides during lactose conversion, EUR J BIOCH, 267(16), 2000, pp. 5055-5066
Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose: II. Oligosaccharide formation by two thermostable beta-glycosidases
Authors: Petzelbauer, I Zeleny, R Reiter, A Kulbe, KD Nidetzky, B
Citation: I. Petzelbauer et al., Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose: II. Oligosaccharide formation by two thermostable beta-glycosidases, BIOTECH BIO, 69(2), 2000, pp. 140-149
Binding and catalysis by yeast aldose reductase: A substrate-analog approach with new aldose derivatives
Authors: Hadwiger, P Mayr, P Tauss, A Stutz, AE Nidetzky, B
Citation: P. Hadwiger et al., Binding and catalysis by yeast aldose reductase: A substrate-analog approach with new aldose derivatives, BIOORG MED, 9(12), 1999, pp. 1683-1686
Continuous production of alpha,alpha-trehalose by immobilised fungal trehalose phosphorylase
Authors: Klimacek, M Eis, C Nidetzky, B
Citation: M. Klimacek et al., Continuous production of alpha,alpha-trehalose by immobilised fungal trehalose phosphorylase, BIOTECH TEC, 13(4), 1999, pp. 243-248
Bacterial alpha-glucan phosphorylases
Authors: Schinzel, R Nidetzky, B
Citation: R. Schinzel et B. Nidetzky, Bacterial alpha-glucan phosphorylases, FEMS MICROB, 171(2), 1999, pp. 73-79
Binding energy and specificity in the catalytic mechanism of yeast aldose reductases
Authors: Nidetzky, B Mayr, P Hadwiger, P Stutz, AE
Citation: B. Nidetzky et al., Binding energy and specificity in the catalytic mechanism of yeast aldose reductases, BIOCHEM J, 344, 1999, pp. 101-107
Characterization of trehalose phosphorylase from Schizophyllum commune
Authors: Eis, C Nidetzky, B
Citation: C. Eis et B. Nidetzky, Characterization of trehalose phosphorylase from Schizophyllum commune, BIOCHEM J, 341, 1999, pp. 385-393
Endo-beta-1,4-D-mannanase is efficiently produced by Sclerotium (Athelia) rolfsii under derepressed conditions
Authors: Grosswindhager, C Sachslehner, A Nidetzky, B Haltrich, D
Citation: C. Grosswindhager et al., Endo-beta-1,4-D-mannanase is efficiently produced by Sclerotium (Athelia) rolfsii under derepressed conditions, J BIOTECH, 67(2-3), 1999, pp. 189-203
A simple assay for measuring cellobiose dehydrogenase activity in the presence of laccase
Authors: Baminger, U Nidetzky, B Kulbe, KD Haltrich, D
Citation: U. Baminger et al., A simple assay for measuring cellobiose dehydrogenase activity in the presence of laccase, J MICROB M, 35(3), 1999, pp. 253-259
Characterization of dTDP-4-dehydrorhamnose 3,5-epimerase and dTDP-4-dehydrorhamnose reductase, required for dTDP-L-rhamnose biosynthesis in Salmonella enterica serovar typhimurium LT2
Authors: Graninger, M Nidetzky, B Heinrichs, DE Whitfield, C Messner, P
Citation: M. Graninger et al., Characterization of dTDP-4-dehydrorhamnose 3,5-epimerase and dTDP-4-dehydrorhamnose reductase, required for dTDP-L-rhamnose biosynthesis in Salmonella enterica serovar typhimurium LT2, J BIOL CHEM, 274(35), 1999, pp. 25069-25077
Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose. 1. The properties of two thermostable beta-glycosidases (vol 64, pg 322, 1999)
Authors: Petzelbauer, I Nidetzky, B Haltrich, D Kulbe, KD
Citation: I. Petzelbauer et al., Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose. 1. The properties of two thermostable beta-glycosidases (vol 64, pg 322, 1999), BIOTECH BIO, 65(6), 1999, pp. 677-677
Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose. I. The properties of two thermostable beta-glycosidases
Authors: Petzelbauer, I Nidetzky, B Haltrich, D Kulbe, KD
Citation: I. Petzelbauer et al., Development of an ultra-high-temperature process for the enzymatic hydrolysis of lactose. I. The properties of two thermostable beta-glycosidases, BIOTECH BIO, 64(3), 1999, pp. 322-332
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