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Kinetic isotope effect characterization of the transition state for oxidized nicotinamide adenine dinucleotide hydrolysis by pertussis toxin
Johannes Scheuring,
Vern L. Schramm
Biochemistry
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peer-review
43
Scopus citations
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Dive into the research topics of 'Kinetic isotope effect characterization of the transition state for oxidized nicotinamide adenine dinucleotide hydrolysis by pertussis toxin'. Together they form a unique fingerprint.
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Chemical Compounds
Kinetic Isotope Effect
95%
Nicotinamide
94%
Dinucleotide
94%
Isotope Effect
89%
Toxin
83%
Adenine
81%
Ribose
79%
Transition State
71%
Hydrolysis
54%
Transition State Structure
44%
Bond Order
40%
Ribosylation
27%
Environment
19%
Force Constant
19%
ADP
18%
Nucleophile
15%
Isotope
15%
Catalysis
11%
Dioxygen
8%
pH Value
7%
Protein
7%
Medicine & Life Sciences
Pertussis Toxin
100%
Isotopes
94%
NAD
90%
Hydrolysis
81%
Kinetics
63%
Ribose
35%
Whooping Cough
21%
Water
17%
nicotinamide-beta-riboside
15%
NAD+ Nucleosidase
14%
ADP-Ribosylation
12%
Niacinamide
11%
Catalysis
10%
Enzymes
9%
GTP-Binding Proteins
8%
Oxygen
6%
Proteins
3%