Yin Fan, Shin Hoon-Kyu, Kwon Young-Soo
Department of Electrical Engineering, Dong-A University, Busan 604-714, Republic of Korea.
Biosens Bioelectron. 2005 Jul 15;21(1):21-9. doi: 10.1016/j.bios.2005.04.014.
In this research, we reported a novel method of forming hemoglobin (Hb)-linoleic acid (LA) Langmuir-Blodgett (LB) monolayer by spreading Hb solution directly onto the subphase covered with a layer of LA. This method is suitable for preparing electrochemical devices with protein-lipid LB film because almost no protein adsorbed on electrode surface before protein-lipid film transferred from air-water interface to electrode, which ensured better electrode activity. The compressibility of Hb-LA monolayer was used to character the phase transition during compression process. Optimal experimental conditions were obtained by analyzing pressure-time, pressure-area and pressure-compressibility curves. The direct electrochemistry of Hb, which was immobilized on Au electrode surface incorporated with LA layer by LB method, was investigated using cyclic voltammetry for the first time. The electrode modified with Hb-LA LB film holds high electrochemical activity and shows a fast direct electron transfer of Hb. Redox peak currents increased linearly with the increase of scan rate, indicating a surface-controlled electrode process. The electron transfer rate constant was 2.68+/-0.45 s-1. As a target of this research, this work provides a new way to prepare biomimetic film and biosensor.
在本研究中,我们报道了一种通过将血红蛋白(Hb)溶液直接铺展在覆盖有一层亚油酸(LA)的亚相上形成血红蛋白-亚油酸(Hb-LA)朗缪尔-布洛杰特(LB)单分子层的新方法。该方法适用于制备具有蛋白质-脂质LB膜的电化学装置,因为在蛋白质-脂质膜从气-水界面转移到电极之前,几乎没有蛋白质吸附在电极表面,这确保了更好的电极活性。利用Hb-LA单分子层的压缩性来表征压缩过程中的相变。通过分析压力-时间、压力-面积和压力-压缩性曲线获得了最佳实验条件。首次使用循环伏安法研究了通过LB法固定在结合有LA层的金电极表面上的Hb的直接电化学。用Hb-LA LB膜修饰的电极具有高电化学活性,并显示出Hb的快速直接电子转移。氧化还原峰电流随扫描速率的增加而线性增加,表明是表面控制的电极过程。电子转移速率常数为2.68±0.45 s-1。作为本研究的目标,这项工作为制备仿生膜和生物传感器提供了一种新方法。
