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Electronic Olfactory Sensor Based on A. mellifera Odorant‐Binding Protein 14 on a Reduced Graphene Oxide Field‐Effect Transistor

机译：氧化石墨烯场效应晶体管上基于A. lifelifera气味结合蛋白14的电子嗅觉传感器

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摘要

An olfactory biosensor based on a reduced graphene oxide (rGO) field‐effect transistor (FET), functionalized by the odorant‐binding protein 14 (OBP14) from the honey bee (Apis mellifera) has been designed for the in situ and real‐time monitoring of a broad spectrum of odorants in aqueous solutions known to be attractants for bees. The electrical measurements of the binding of all tested odorants are shown to follow the Langmuir model for ligand–receptor interactions. The results demonstrate that OBP14 is able to bind odorants even after immobilization on rGO and can discriminate between ligands binding within a range of dissociation constants from K d=4 μm to K d=3.3 mm. The strongest ligands, such as homovanillic acid, eugenol, and methyl vanillate all contain a hydroxy group which is apparently important for the strong interaction with the protein.

机译：一种基于还原型氧化石墨烯（rGO）场效应晶体管（FET）的嗅觉生物传感器，该传感器由蜜蜂（Apis mellifera）的气味结合蛋白14（OBP14）进行了功能化，可用于原位和实时监测已知是蜜蜂引诱剂的水溶液中的各种气味剂。对所有测试的增香剂结合的电学测量结果均遵循Langmuir模型的配体-受体相互作用。结果表明，即使在rGO上固定后，OBP14仍能够结合加味剂，并且可以在K d =4μm至K d =3.3μmm的解离常数范围内区分配体结合。最强的配体，例如高香草酸，丁子香酚和香草酸甲酯都含有一个羟基，这显然对与蛋白质的强相互作用至关重要。

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期刊名称 Wiley-Blackwell Online Open
作者
Dr. Melanie Larisika; †; Caroline Kotlowski; †; Christoph Steininger; Rosa Mastrogiacomo; Prof. Paolo Pelosi; Prof. Stefan Schütz; Serban F. Peteu; Prof. Christoph Kleber; Ciril Reiner‐Rozman; Dr. Christoph Nowak; Prof. Wolfgang Knoll;
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年(卷),期 -1(54),45
年度 -1
页码 13245–13248
总页数 4
原文格式 PDF
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关键词
biosensors immobilization odorant‐binding protein olfaction reduced graphene oxide;

机译：生物传感器;固定化;气味结合蛋白;嗅觉;氧化石墨烯还原;

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专利

1. Electronic Olfactory Sensor Based on A.mellifera Odorant-Binding Protein14 on a Reduced Graphene Oxide Field-Effect Transistor [J] . Larisika Melanie, Kotlowski Caroline, Steininger Christoph, Angewandte Chemie . 2015,第45期

机译：氧化石墨烯场效应晶体管上基于A.mellifera气味结合蛋白14的电子嗅觉传感器
2. Highly Sensitive Protein Sensor Based on Thermally-Reduced Graphene Oxide Field-Effect Transistor [J] . Shun Mao, Kehan Yu, Ganhua Lu, 纳米研究：英文版 . 2011,第010期

机译：基于热还原氧化石墨烯场效应晶体管的高灵敏度蛋白质传感器
3. Crystal structure of Apis mellifera OBP14, a C-minus odorant-binding protein, and its complexes with odorant molecules. [J] . Spinelli S., Lagarde A., Iovinella I., Insect Biochemistry and Molecular Biology . 2012,第1期

机译：C-减味剂结合蛋白 Apis mellifera OBP14的晶体结构及其与加味剂分子的复合物。
4. Biomimetic diamond MEMS sensors based on odorant-binding proteins: Sensors validation through an autonomous electronic system [C] . Maira Possas-Abreu, Lionel Rousseau, Farbod Ghassemi, 2017 ISOCS/IEEE International Symposium on Olfaction and Electronic Nose . 2017

机译：基于气味结合蛋白的仿生金刚石MEMS传感器：通过自主电子系统进行的传感器验证
5. High Sensitivity Phosphate Ion Sensor Based on Graphene Oxide Field-effect Transistor [D] . Jin, Bing. 2018

机译：基于石墨烯氧化物场效应晶体管的高灵敏度磷酸根离子传感器
6. Function of Tetra (4-Aminophenyl) Porphyrin in Altering the Electronic Performances of Reduced Graphene Oxide-Based Field Effect Transistor [O] . Shihui Hu, Yunfang Jia 2019

机译：四（4-氨基苯基）卟啉在改变基于氧化石墨烯的场效应晶体管的电子性能中的作用
7. Electronic Olfactory Sensor Based on A. mellifera Odorant‐Binding Protein 14 on a Reduced Graphene Oxide Field‐Effect Transistor [O] . Melanie Larisika, Caroline Kotlowski, Christoph Steininger, 2015

机译：基于A. mellifera气味结合蛋白14的电子嗅觉传感器在氧化物氧化物场效应晶体管上

Electronic Olfactory Sensor Based on A. mellifera Odorant‐Binding Protein 14 on a Reduced Graphene Oxide Field‐Effect Transistor

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