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Stephen G Withers

Showing results (21-30 of 341) with videos related to

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Proceedings of the National Academy of Sciences of the United States of America|July 10, 2014
Periplasmic de-acylase helps bacteria don their biofilm coatDavid H Kwan, Stephen G Withers
Journal of the American Chemical Society|July 25, 2017
Glycosyl Cations versus Allylic Cations in Spontaneous and Enzymatic HydrolysisPhillip M Danby, Stephen G Withers
Chemical Communications (Cambridge, England)|October 19, 2004
Mechanistic analogies amongst carbohydrate modifying enzymesLuke L Lairson, Stephen G Withers
Glycobiology|May 24, 2008
Covalent inhibitors of glycosidases and their applications in biochemistry and biologyBrian P Rempel, Stephen G Withers
Carbohydrate Research|March 12, 2004
The synthesis of a novel thio-linked disaccharide of chondroitin as a potential inhibitor of polysaccharide lyasesCarl S Rye, Stephen G Withers
The Journal of Biological Chemistry|October 31, 2015
Proteolytic Cleavage Driven by GlycosylationMiriam P Kötzler, Stephen G Withers
ACS Chemical Biology|May 14, 2016
Advances in Enzymatic Glycoside SynthesisPhillip M Danby, Stephen G Withers
Journal of the American Chemical Society|August 15, 2002
Elucidation of the mechanism of polysaccharide cleavage by chondroitin AC lyase from Flavobacterium heparinumCarl S Rye, Stephen G Withers
Biochemistry|September 21, 2005
Detailed comparative analysis of the catalytic mechanisms of beta-N-acetylglucosaminidases from families 3 and 20 of glycoside hydrolasesDavid J Vocadlo, Stephen G Withers
Current Opinion in Chemical Biology|November 22, 2012
How to make a difference: mechanisms of protein and nucleic acid modifying enzymesDavid J Vocadlo, Stephen G Withers
Pageof 35

Showing results (21-30 of 341) with videos related to

Sort By:
Pageof 35
Proceedings of the National Academy of Sciences of the United States of America|July 10, 2014
Periplasmic de-acylase helps bacteria don their biofilm coatDavid H Kwan, Stephen G Withers
Journal of the American Chemical Society|July 25, 2017
Glycosyl Cations versus Allylic Cations in Spontaneous and Enzymatic HydrolysisPhillip M Danby, Stephen G Withers
Chemical Communications (Cambridge, England)|October 19, 2004
Mechanistic analogies amongst carbohydrate modifying enzymesLuke L Lairson, Stephen G Withers
Glycobiology|May 24, 2008
Covalent inhibitors of glycosidases and their applications in biochemistry and biologyBrian P Rempel, Stephen G Withers
Carbohydrate Research|March 12, 2004
The synthesis of a novel thio-linked disaccharide of chondroitin as a potential inhibitor of polysaccharide lyasesCarl S Rye, Stephen G Withers
The Journal of Biological Chemistry|October 31, 2015
Proteolytic Cleavage Driven by GlycosylationMiriam P Kötzler, Stephen G Withers
ACS Chemical Biology|May 14, 2016
Advances in Enzymatic Glycoside SynthesisPhillip M Danby, Stephen G Withers
Journal of the American Chemical Society|August 15, 2002
Elucidation of the mechanism of polysaccharide cleavage by chondroitin AC lyase from Flavobacterium heparinumCarl S Rye, Stephen G Withers
Biochemistry|September 21, 2005
Detailed comparative analysis of the catalytic mechanisms of beta-N-acetylglucosaminidases from families 3 and 20 of glycoside hydrolasesDavid J Vocadlo, Stephen G Withers
Current Opinion in Chemical Biology|November 22, 2012
How to make a difference: mechanisms of protein and nucleic acid modifying enzymesDavid J Vocadlo, Stephen G Withers
Pageof 35