在电极上的细胞色素 c 和杯芳烃的微晶体：在定义的位置之间的蛋白质间电子转移。

Microscale Crystals of Cytochrome c and Calixarene on Electrodes: Interprotein Electron Transfer between Defined Sites.

机构信息

School of Chemistry, National University of Ireland Galway, University Road, Galway (Ireland).

Biosystems Technology, Institute of Applied Life Sciences, Technical University of Applied Sciences, Hochschulring 1, 15745 Wildau (Germany).

出版信息

Angew Chem Int Ed Engl. 2015 May 18;54(21):6356-9. doi: 10.1002/anie.201500191. Epub 2015 Apr 1.

DOI:10.1002/anie.201500191

PMID:25833222

Abstract

The assembly of redox proteins on electrodes is an important step in biosensor development. Recently, p-sulfonato-calix[4]arene was shown to act as "molecular glue" for the assembly and crystallization of cytochrome c (cyt c). Electrochemical data are presented for microscale cyt c-calixarene crystals grown on self-assembled monolayers (SAM)-modified Au electrodes. The crystals were characterized by cyclic voltammetry and exceptionally high concentrations of electroactive cyt c were obtained. The peak currents were found to increase linearly with the square root of the scan rate, thus allowing an evaluation of the rate constant for electron self-exchange. This study revealed high electroactivity accompanied by fast interprotein electron transfer in crystals, which may have implications for the construction of novel bioelectronic devices.

摘要

氧化还原蛋白在电极上的组装是生物传感器发展的重要步骤。最近，研究表明对磺酸钠-calix[4]芳烃可以作为细胞色素 c（cyt c）组装和结晶的“分子胶”。本文展示了在自组装单层（SAM）修饰的 Au 电极上生长的微尺度 cyt c-calixarene 晶体的电化学数据。通过循环伏安法对晶体进行了表征，并获得了极高浓度的电化学活性 cyt c。发现峰电流随扫描速率的平方根线性增加，从而可以评估电子自交换的速率常数。该研究揭示了晶体中高的电化学活性伴随着快速的蛋白质间电子转移，这可能对新型生物电子器件的构建具有重要意义。

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在电极上的细胞色素 c 和杯芳烃的微晶体：在定义的位置之间的蛋白质间电子转移。

Microscale Crystals of Cytochrome c and Calixarene on Electrodes: Interprotein Electron Transfer between Defined Sites.

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