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M K Weibel

Showing results (1-10 of 10) with videos related to

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Analytical Biochemistry|February 1, 1976
A coupled enzyme assay for aldose 1-epimeraseM K Weibel
Archives of Biochemistry and Biophysics|July 1, 1975
Biochemical fuel cells. Demonstration of an obligatory pathway involving an external circuit for the enzymatically catalyzed aerobic oxidation of glucoseM K Weibel, C Dodge
Biochemical Medicine|January 1, 1974
Immobilized enzymes: direct analysis of glucose in whole blood using a mixed bed reactor of glucose oxidase and catalaseW Dritschilo, M K Weibel
Biochemical Medicine|November 1, 1974
Immobilized enzymes: the application of immobilized urate oxidase to the chemical analysis of uric acid in biological fluidsW Dritschilo, M K Weibel
The Journal of Biological Chemistry|May 10, 1971
The glucose oxidase mechanism. Interpretation of the pH dependenceM K Weibel, H J Bright
The Biochemical Journal|October 1, 1971
Insolubilized enzymes. Kinetic behaviour of glucose oxidase bound to porous glass particlesM K Weibel, H J Bright
Methods in Enzymology|January 1, 1974
Affinity chromatography of urokinaseT Maciag, M K Weibel, E K Pye
Biotechnology and Bioengineering|December 1, 1976
Galactose oxidase: applications of the covalently immobilized enzyme in a packed bed configurationS K Dahodwala, M K Weibel, A E Humphrey
Biochemical and Biophysical Research Communications|July 16, 1971
Insolubilized coenzymes: the covalent coupling of enzymatically active NAD to glass surfacesM K Weibel, H H Weetall, H J Bright
Analytical Biochemistry|April 1, 1973
Immobilized enzymes: a prototype apparatus for oxidase enzymes in chemical analysis utilizing covalently bound glucose oxidaseM K Weibel, W Dritschilo, H J Bright, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Analytical Biochemistry|February 1, 1976
A coupled enzyme assay for aldose 1-epimeraseM K Weibel
Archives of Biochemistry and Biophysics|July 1, 1975
Biochemical fuel cells. Demonstration of an obligatory pathway involving an external circuit for the enzymatically catalyzed aerobic oxidation of glucoseM K Weibel, C Dodge
Biochemical Medicine|January 1, 1974
Immobilized enzymes: direct analysis of glucose in whole blood using a mixed bed reactor of glucose oxidase and catalaseW Dritschilo, M K Weibel
Biochemical Medicine|November 1, 1974
Immobilized enzymes: the application of immobilized urate oxidase to the chemical analysis of uric acid in biological fluidsW Dritschilo, M K Weibel
The Journal of Biological Chemistry|May 10, 1971
The glucose oxidase mechanism. Interpretation of the pH dependenceM K Weibel, H J Bright
The Biochemical Journal|October 1, 1971
Insolubilized enzymes. Kinetic behaviour of glucose oxidase bound to porous glass particlesM K Weibel, H J Bright
Methods in Enzymology|January 1, 1974
Affinity chromatography of urokinaseT Maciag, M K Weibel, E K Pye
Biotechnology and Bioengineering|December 1, 1976
Galactose oxidase: applications of the covalently immobilized enzyme in a packed bed configurationS K Dahodwala, M K Weibel, A E Humphrey
Biochemical and Biophysical Research Communications|July 16, 1971
Insolubilized coenzymes: the covalent coupling of enzymatically active NAD to glass surfacesM K Weibel, H H Weetall, H J Bright
Analytical Biochemistry|April 1, 1973
Immobilized enzymes: a prototype apparatus for oxidase enzymes in chemical analysis utilizing covalently bound glucose oxidaseM K Weibel, W Dritschilo, H J Bright, et al.
Pageof 1