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Keywords
(10)
Catalytic Activity
Reactive Oxygen Specie
Real-time Monitoring
Redox Potential
Signal Transduction
Superoxide Dismutase
Thermodynamics
Electron Transfer
Quick Response
Widely Linear
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A biomimetic sensor for the determination of extracellular O 2 − using synthesized Mn-TPAA on TiO 2 nanoneedle film
A biomimetic sensor for the determination of extracellular O 2 − using synthesized Mn-TPAA on TiO 2 nanoneedle film,10.1016/j.bios.2011.08.017,Biosens
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A biomimetic sensor for the determination of extracellular O 2 − using synthesized Mn-TPAA on TiO 2 nanoneedle film
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Yongping Luo
,
Guoqi Hu
,
Anwei Zhu
,
Biao Kong
,
Zhen Wang
,
Chunyuan Liu
,
Yang Tian
By immobilizing synthesized Mn-TPAA (TPAA=tris[2-[N-(2-pyridylmethyl) amino] ethyl] amine) on TiO2 nanoneedle surface, a biosensor for superoxide ion (O2−) has been developed and applied for determination of O2− released from living cells. Direct
electron transfer
of Mn-TPAA is realized with a formal
redox potential
(E°′) falling in the range of the E°′ values of the redox couples O2/O2− and O2−/H2O2. This suggests that Mn-TPAA on TiO2 films is electrochemically active and capable of thermodynamically mediating both the oxidation of O2− to O2 and the reduction of O2− to H2O2. Therefore, Mn-TPAA immobilized on the TiO2 films can be used electrochemically for determination of O2− due to its electrochemical activities and biomimetic catalytic activities like
superoxide dismutase
(SOD) toward O2−. The present biomimetic O2− sensor shows high selectivity at the low working potential of 0V vs. Ag|AgCl, a wide linear range from 10−7M to 10−4M and a
quick response
time within 6s. By taking advantage of the developed method and the properties of biomimetic SOD themselves, we have realized the
real-time monitoring
of O2− concentration released from living cells and investigated the relationship between the concentration changes of O2− and intracelluar Ca2+, which may gain additional insights on the
reactive oxygen
species (ROS)
signal transduction
and other physiological and pathological events.
Journal:
Biosensors & Bioelectronics - BIOSENS BIOELECTRON
, vol. 29, no. 1, pp. 189-194, 2011
DOI:
10.1016/j.bios.2011.08.017
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