Switching an O2 sensitive glucose oxidase bioelectrode into an almost insensitive one by cofactor redesign

Chemical Communications

Volumn 50, Issue 44, 2014, Pages 5912-5914

  Tremey, Emilie ^a,b   Suraniti, Emmanuel ^a,b   Courjean, Olivier ^a,b   Gounel, Sébastien ^a,b   Stines Chaumeil, Claire ^a,b   Louerat, Frédéric ^a,b   Mano, Nicolas ^a,b  

^a CNRS   (France)

^b SYRACUSE UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

GLUCOSE; GLUCOSE OXIDASE; OXYGEN; 7,8 DICHLORO FLAVINE ADENINE NUCLEOTIDE; 7,8 DICHLORO RIBOFLAVIN; ADENOSINE TRIPHOSPHATE; APO FLAVINE ADENINE NUCLEOTIDE SYNTHETASE; FLAVINE ADENINE NUCLEOTIDE; HOLO FLAVINE ADENINE NUCLEOTIDE SYNTHETASE; MAGNESIUM CHLORIDE; PIRENZEPINE; QUERCETIN; RIBOFLAVIN DERIVATIVE; SODIUM DIHYDROGEN PHOSPHATE; SYNTHETASE; UNCLASSIFIED DRUG;

ASPERGILLUS NIGER; CALIBRATION; CHEMISTRY; ELECTRODE; ENZYMOLOGY; KINETICS; ARTICLE; CHEMICAL REACTION KINETICS; DIFFUSION COEFFICIENT; ELECTROCHEMISTRY; ENZYME ELECTRODE; GLUCOSE OXIDASE BIOELECTRODE; GLUCOSE OXIDATION; GLUCOSE SENSOR; HYDROGEL; OXIDATION REDUCTION POTENTIAL; STEADY STATE; SUBSTITUTION REACTION; THERMODYNAMICS;

ASPERGILLUS NIGER; CALIBRATION; ELECTRODES; GLUCOSE; GLUCOSE OXIDASE; KINETICS; OXYGEN;

EID: 84899890761     PISSN: 13597345     EISSN: 1364548X     Source Type: Journal    
DOI: 10.1039/c4cc01670j     Document Type: Article

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