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Volumn 104, Issue 2, 2010, Pages 211-213
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The bioremediator glycerophosphodiesterase employs a non-processive mechanism for hydrolysis
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Author keywords
31P NMR; Binuclear metallohydrolases; Processive mechanism; Reaction mechanism; Sequential mechanism
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Indexed keywords
GLYCEROPHOSPHODIESTERASE;
HYDROXIDE;
METAL ION;
NUCLEOPHILE;
PHOSPHODIESTERASE;
UNCLASSIFIED DRUG;
ARTICLE;
CATALYSIS;
CHEMICAL BOND;
ENTEROBACTER AEROGENES;
HYDROLYSIS;
NONHUMAN;
PHOSPHORUS NUCLEAR MAGNETIC RESONANCE;
REACTION ANALYSIS;
SPECTROPHOTOMETRY;
BACTERIAL PROTEINS;
BINDING SITES;
BIOCATALYSIS;
CATALYTIC DOMAIN;
ENTEROBACTER AEROGENES;
HYDROLYSIS;
KINETICS;
MAGNETIC RESONANCE SPECTROSCOPY;
MODELS, CHEMICAL;
MOLECULAR STRUCTURE;
NITROPHENOLS;
ORGANOPHOSPHORUS COMPOUNDS;
PHOSPHORIC ACID ESTERS;
PHOSPHORIC DIESTER HYDROLASES;
SUBSTRATE SPECIFICITY;
ENTEROBACTER AEROGENES;
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EID: 71849093760
PISSN: 01620134
EISSN: None
Source Type: Journal
DOI: 10.1016/j.jinorgbio.2009.10.012 Document Type: Article |
Times cited : (18)
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References (16)
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