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Volumn 8, Issue 4, 2010, Pages 873-880
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Mechanism of general acid-base catalysis in transesterification of an RNA model phosphodiester studied with strongly basic catalysts
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Author keywords
[No Author keywords available]
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Indexed keywords
ACID-BASE CATALYSIS;
ALKYL AMINES;
AMMONIUM CATIONS;
AQUEOUS DMSO;
BASIC CATALYSTS;
BUFFER COMPONENTS;
BUFFER MIXTURES;
CATALYTIC EFFICIENCIES;
CATALYZED REACTIONS;
CONCENTRATION RANGES;
FRACTIONATION FACTORS;
GENERAL BASE CATALYSIS;
GUANIDINIUM;
GUANIDINIUM CATIONS;
ISOTOPE EFFECT;
KINETIC STUDY;
MODEL SUBSTRATES;
NITROPHENYL PHOSPHATES;
PHOSPHATE GROUP;
PHOSPHODIESTERS;
PROTONATED;
RATE LAWS;
REACTION MEDIUM;
SOLVENT ISOTOPE EFFECTS;
TRANSITION STATE STABILIZATION;
AMMONIUM COMPOUNDS;
BINDING ENERGY;
CARRIER MOBILITY;
CATALYSIS;
ISOTOPES;
PROTON TRANSFER;
RATE CONSTANTS;
RNA;
STABILIZATION;
POSITIVE IONS;
4 NITROPHENYL;
4-NITROPHENYL;
AMIDINE;
DIMETHYL SULFOXIDE;
GUANIDINE;
NITROPHENOL;
NITROPHENYL PHOSPHATE;
ORGANOPHOSPHATE;
ORGANOPHOSPHORUS COMPOUND;
OXYGEN;
RNA;
ARTICLE;
CATALYSIS;
CHEMISTRY;
ESTERIFICATION;
KINETICS;
PH;
AMIDINES;
CATALYSIS;
DIMETHYL SULFOXIDE;
ESTERIFICATION;
GUANIDINE;
HYDROGEN-ION CONCENTRATION;
KINETICS;
NITROPHENOLS;
ORGANOPHOSPHORUS COMPOUNDS;
OXYGEN ISOTOPES;
PHOSPHORIC ACID ESTERS;
RNA;
KOBUS;
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EID: 76249103566
PISSN: 14770520
EISSN: None
Source Type: Journal
DOI: 10.1039/b920398b Document Type: Article |
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Times cited : (33)
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References (45)
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