Biomedical Engineering Reference
In-Depth Information
CHAPTER 17
Biosensors based on direct electron
transfer of protein
Shengshui Hu, Qing Lu, and Yanxia Xu
17.1 Introduction
17.1.1 Introduction of biodirect electron transfer of protein
17.1.2 Advantage of biosensors on direct electron transfer of protein
17.2 Direct electron transfer of protein
17.2.1 Methods of protein immobilization
17.2.1.1 Adsorption of protein
17.2.1.2 Covalent bonding of protein
17.2.1.3 Sol-gel/polymer embedment of protein
17.2.1.4 Surfactant embedment of protein
17.2.1.5 Nanoparticles embedment of protein
17.2.1.6 Other methods of protein immobilization
17.2.2 Direct electron transfer of proteins
17.2.2.1 Direct electron transfer of cytochrome c
17.2.2.2 Direct electron transfer of myoglobin
17.2.2.3 Direct electron transfer of hemoglobin
17.2.3 Direct electron transfer of enzymes
17.2.3.1 Direct electron transfer of HRP
17.2.3.2 Direct electron transfer of catalase
17.2.3.3 Direct electron transfer of GOD
17.2.3.4 Direct electron transfer of other active enzymes
17.3 Application of biosensors based on direct electron transfer of protein
17.3.1 Biosensors based on direct electron transfer of proteins
17.3.1.1 Biosensors based on direct electron transfer of proteins cytochrome c
17.3.1.2 Biosensors based on direct electron transfer of
proteins cytochrome P450 [218]
17.3.1.3 Biosensors based on direct electron transfer of myoglobin
17.3.1.4 Biosensors based on direct electron transfer of hemoglobin
17.3.2 Biosensors based on direct electron transfer of enzymes
17.3.2.1 Biosensors based on direct electron transfer of horseradish peroxidase
17.3.2.2 Biosensors based on direct electron transfer of catalase
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