1. Electroanalytical characterization of the direct Marinobacter hydrocarbonoclasticus nitric oxide reductase-catalysed nitric oxide and dioxygen reduction.
- Author
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Gomes, Filipa O., Maia, Luísa B., Cordas, Cristina, Moura, Isabel, Delerue-Matos, Cristina, Moura, José J.G., and Morais, Simone
- Subjects
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CHARGE exchange , *NITRIC oxide , *ELECTRODES , *BIOSENSORS , *PYROLYTIC graphite - Abstract
Abstract Understanding the direct electron transfer processes between redox proteins and electrode surface is fundamental to understand the proteins mechanistic properties and for development of novel biosensors. In this study, nitric oxide reductase (NOR) extracted from Marinobacter hydrocarbonoclasticus bacteria was adsorbed onto a pyrolytic graphite electrode (PGE) to develop an unmediated enzymatic biosensor (PGE/NOR)) for characterization of NOR direct electrochemical behaviour and NOR electroanalytical features towards NO and O 2. Square-wave voltammetry showed the reduction potential of all the four NOR redox centers: 0.095 ± 0.002, −0.108 ± 0.008, −0.328 ± 0.001 and −0.635 ± 0.004 V vs. SCE for heme c , heme b , heme b 3 and non-heme Fe B , respectively. The determined sensitivity (−4.00 × 10−8 ± 1.84 × 10−9 A/μM and - 2.71 × 10−8 ± 1.44 × 10−9 A/μM for NO and O 2 , respectively), limit of detection (0.5 μM for NO and 1.0 μM for O 2) and the Michaelis Menten constant (2.1 and 7.0 μM for NO and O 2 , respectively) corroborated the higher affinity of NOR for its natural substrate (NO). No significant interference on sensitivity towards NO was perceived in the presence of O 2 , while the O 2 reduction was markedly and negatively impacted (3.6 times lower sensitivity) by the presence of NO. These results clearly demonstrate the high potential of NOR for the design of innovative NO biosensors. Highlights • Direct electron transfer of nitric oxide reductase (NOR) was described. • NOR bioelectrocatalytic activity towards NO and O 2 reduction was characterized. • Lower Michaelis Menten constant was obtained for NO than for O 2. • O 2 has no significant effect on NOR sensitivity towards NO reduction. • The unmediated NOR-based biosensor can be useful for NO sensing in biological events. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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