|
Volumn 60, Issue 1-2, 2009, Pages 69-75
|
Optimum immobilization of urease on modified acrylonitrile copolymer membranes: Inactivation by heavy metal ions
|
Author keywords
Chemical modification; Heavy metal ions; Immobilization; Membrane; Optimization; Urease
|
Indexed keywords
3D MODELS;
ACRYLONITRILE COPOLYMER MEMBRANE;
AMIDOXIME;
AMMONIUM SULFATE;
CONTOUR PLOT;
ENZYME SOLUTIONS;
IMMOBILIZATION;
IMMOBILIZED UREASE;
INHIBITION EFFECT;
INHIBITORY EFFECT;
LINEAR DEPENDENCE;
LINEAR RANGE;
LOW CONCENTRATIONS;
METHYL METHACRYLATES;
MODEL MIXTURES;
MODEL SOLUTION;
MODIFIED MEMBRANES;
OPTIMAL CONDITIONS;
UREASE;
UREASE IMMOBILIZATION;
VARIABLE RANGE;
AMMONIUM COMPOUNDS;
BIOSENSORS;
CHEMICAL MODIFICATION;
ENZYME ACTIVITY;
ENZYME IMMOBILIZATION;
ENZYMES;
LEAD;
MEMBRANES;
METAL IONS;
METALS;
MIXTURES;
OPTIMIZATION;
SODIUM SULFATE;
THREE DIMENSIONAL;
TRACE ANALYSIS;
ZINC;
ZINC COMPOUNDS;
CADMIUM COMPOUNDS;
ACRYLONITRILE;
CADMIUM;
COPOLYMER;
COPPER ION;
ENZYME;
LEAD;
METAL ION;
NICKEL;
UREASE;
ZINC ION;
ARTICLE;
BIOSENSOR;
CHEMICAL ANALYSIS;
CHEMICAL MODIFICATION;
ENZYME ACTIVITY;
ENZYME IMMOBILIZATION;
|
EID: 67349175222
PISSN: 13811177
EISSN: None
Source Type: Journal
DOI: 10.1016/j.molcatb.2009.03.018 Document Type: Article |
Times cited : (20)
|
References (41)
|