Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation
Layer-by-layer supramolecular structures composed of alternate layers of negatively charged enzymes and cationic redox polyelectrolyte have been assembled. Glucose oxidase (GOx), lactate oxidase (LOx) and soybean peroxidase (SBP) have been electrically wired to the underlying electrode by means of p...
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| Acceso en línea: | http://hdl.handle.net/20.500.12110/paper_13596640_v116_n_p47_Calvo |
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todo:paper_13596640_v116_n_p47_Calvo2023-10-03T16:10:39Z Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation Calvo, E.J. Battaglini, F. Danilowicz, C. Wolosiuk, A. Otero, M. immobilized enzyme adsorption article chemistry oxidation reduction reaction physical chemistry signal processing surface property Adsorption Chemistry, Physical Enzymes, Immobilized Oxidation-Reduction Signal Processing, Computer-Assisted Surface Properties Layer-by-layer supramolecular structures composed of alternate layers of negatively charged enzymes and cationic redox polyelectrolyte have been assembled. Glucose oxidase (GOx), lactate oxidase (LOx) and soybean peroxidase (SBP) have been electrically wired to the underlying electrode by means of poly(allylamine) with [Os(bpy)2CIPyCOH]+ covalently attached (PAA-Os) in organized structures with high spatial resolution. Biotinylated glucose oxidase has also been used to assemble step-by-step on antibiotin goat immunoglobulin (IgG) layers and the enzyme was electrically wired by PAA-Os. These spatially organized multilayers with mono- and bienzymatic schemes can work efficiently in molecular recognition, redox mediation and generation of an electrical signal. The concentration of redox mediator integrated into the multilayers, obtained from the voltammetric charge and an estimation of the layer thickness, exceeds by 100-fold the amount of deposited enzyme assessed by quartz crystal microbalance. Differences in GOx electrical wiring efficiency have been detected with the different assembling strategies. The surface concentration of electrically wired enzyme represents a small proportion of all the enzyme molecules present in the multilayers which can be oxidized by the soluble mediator [Os(bpy)2Cl PyCOOH]Cl. This proportion, as well as the rate of FADH2 oxidation by PAA-Os, increases with the number of electrically wired enzyme layers and with the spatial accessibility of the Os moiety to the enzyme active center. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_13596640_v116_n_p47_Calvo |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
| collection |
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
immobilized enzyme adsorption article chemistry oxidation reduction reaction physical chemistry signal processing surface property Adsorption Chemistry, Physical Enzymes, Immobilized Oxidation-Reduction Signal Processing, Computer-Assisted Surface Properties |
| spellingShingle |
immobilized enzyme adsorption article chemistry oxidation reduction reaction physical chemistry signal processing surface property Adsorption Chemistry, Physical Enzymes, Immobilized Oxidation-Reduction Signal Processing, Computer-Assisted Surface Properties Calvo, E.J. Battaglini, F. Danilowicz, C. Wolosiuk, A. Otero, M. Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| topic_facet |
immobilized enzyme adsorption article chemistry oxidation reduction reaction physical chemistry signal processing surface property Adsorption Chemistry, Physical Enzymes, Immobilized Oxidation-Reduction Signal Processing, Computer-Assisted Surface Properties |
| description |
Layer-by-layer supramolecular structures composed of alternate layers of negatively charged enzymes and cationic redox polyelectrolyte have been assembled. Glucose oxidase (GOx), lactate oxidase (LOx) and soybean peroxidase (SBP) have been electrically wired to the underlying electrode by means of poly(allylamine) with [Os(bpy)2CIPyCOH]+ covalently attached (PAA-Os) in organized structures with high spatial resolution. Biotinylated glucose oxidase has also been used to assemble step-by-step on antibiotin goat immunoglobulin (IgG) layers and the enzyme was electrically wired by PAA-Os. These spatially organized multilayers with mono- and bienzymatic schemes can work efficiently in molecular recognition, redox mediation and generation of an electrical signal. The concentration of redox mediator integrated into the multilayers, obtained from the voltammetric charge and an estimation of the layer thickness, exceeds by 100-fold the amount of deposited enzyme assessed by quartz crystal microbalance. Differences in GOx electrical wiring efficiency have been detected with the different assembling strategies. The surface concentration of electrically wired enzyme represents a small proportion of all the enzyme molecules present in the multilayers which can be oxidized by the soluble mediator [Os(bpy)2Cl PyCOOH]Cl. This proportion, as well as the rate of FADH2 oxidation by PAA-Os, increases with the number of electrically wired enzyme layers and with the spatial accessibility of the Os moiety to the enzyme active center. |
| format |
JOUR |
| author |
Calvo, E.J. Battaglini, F. Danilowicz, C. Wolosiuk, A. Otero, M. |
| author_facet |
Calvo, E.J. Battaglini, F. Danilowicz, C. Wolosiuk, A. Otero, M. |
| author_sort |
Calvo, E.J. |
| title |
Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| title_short |
Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| title_full |
Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| title_fullStr |
Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| title_full_unstemmed |
Layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| title_sort |
layer-by-layer electrostatic deposition of biomolecules on surfaces for molecular recognition, redox mediation and signal generation |
| url |
http://hdl.handle.net/20.500.12110/paper_13596640_v116_n_p47_Calvo |
| work_keys_str_mv |
AT calvoej layerbylayerelectrostaticdepositionofbiomoleculesonsurfacesformolecularrecognitionredoxmediationandsignalgeneration AT battaglinif layerbylayerelectrostaticdepositionofbiomoleculesonsurfacesformolecularrecognitionredoxmediationandsignalgeneration AT danilowiczc layerbylayerelectrostaticdepositionofbiomoleculesonsurfacesformolecularrecognitionredoxmediationandsignalgeneration AT wolosiuka layerbylayerelectrostaticdepositionofbiomoleculesonsurfacesformolecularrecognitionredoxmediationandsignalgeneration AT oterom layerbylayerelectrostaticdepositionofbiomoleculesonsurfacesformolecularrecognitionredoxmediationandsignalgeneration |
| _version_ |
1807322062716403712 |