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Selective inactivation of serine proteases by nonheme iron complexes
Jai Prakash, Jeremy J. Kodanko
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
6
Scopus citations
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Dive into the research topics of 'Selective inactivation of serine proteases by nonheme iron complexes'. Together they form a unique fingerprint.
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Keyphrases
Non-heme Iron
100%
Trypsin
100%
Serine Protease
100%
Chymotrypsin
100%
Selective Inactivation
100%
IC50 Value
50%
Fe(II)
50%
Ferryl
50%
Tyrosine
25%
Amino Acid Analysis
25%
Tryptophan
25%
Cysteine
25%
Hydrogen Peroxide
25%
Oxidative Inactivation
25%
Controlled Experiment
25%
Fe(IV)
25%
Hydroxyl Radical
25%
Tyrosine Residue
25%
Catalytic Conditions
25%
Amino Acid Side Chains
25%
Ferric Complexes
25%
Guanidinium Group
25%
Non-heme Ligand
25%
Pharmacology, Toxicology and Pharmaceutical Science
Serine Proteinase
100%
Iron Complex
100%
Chymotrypsin
100%
Amino Acid
50%
IC50
50%
Tyrosine
50%
Guanidine
25%
Ferrous Ion
25%
Cysteine
25%
Oxidizing Agent
25%
Tryptophan
25%
Hydroxyl Radical
25%
Biochemistry, Genetics and Molecular Biology
Iron Complex
100%
Serine Protease
100%
Chymotrypsin
100%
Tyrosine
50%
IC50
50%
Amino Acids
25%
Amino Acid Analysis
25%
Alpha Oxidation
25%
Cysteine
25%
Tryptophan
25%
Enzyme
25%
Chemistry
Iron Complex
100%
Serine
100%
Amino Acid
66%
IC50
66%
Tyrosine Residue
66%
Guanidinium
33%
Tryptophan Residue
33%
Hydroxyl Radical
33%
Cysteine Residue
33%