Lee Keon Ah, Lee Sang-Soo, Kim So Young, Choi Ah Reum, Lee Jung-Ha, Jung Kwang-Hwan
Department of Life Science and Interdisciplinary Program of Integrated Biotechnology, Sogang University, Shinsu-Dong 1, Mapo-Gu, Seoul 121-742, Republic of Korea.
Department of Life Science and Interdisciplinary Program of Integrated Biotechnology, Sogang University, Shinsu-Dong 1, Mapo-Gu, Seoul 121-742, Republic of Korea.
Biochim Biophys Acta. 2015 Sep;1850(9):1694-703. doi: 10.1016/j.bbagen.2015.04.002. Epub 2015 Apr 11.
Since algal rhodopsins, the eukaryotic seven-transmembrane proteins, are generally difficult to express in Escherichia coli, eukaryotic cells have been used for heterologous expression. Mistic, a membrane-associated protein that was originally discovered in Bacillus subtilis, has been shown to improve the expression levels of many foreign integral membrane proteins in E. coli when used as a fusion partner linked to the N-terminus of cargo proteins.
Here, we expressed two algal rhodopsins with N- and C-terminal Mistic domains in E. coli-Acetabularia rhodopsin I (ARI) and Chlamydomonas sensory rhodopsin B (CSRB, channel rhodopsin 2). UV/VIS spectroscopy, pH titration of proton acceptor residue, laser-induced photolysis and electrophysiological measurement were used for investigating important residues in proton transport and spectroscopic characters of the proteins.
Protein yield of two algal rhodopsins was enhanced, obtaining 0.12mg of Mistic-ARI and 0.04mg of Mistic-CSRB per liter of culture. Spheroplast expression Mistic-ARI had outward proton-pumping activity, indicating protein functionality. Asp89 of ARI changed its protonation state by light absorption, and Asp100 was important for O(600) formation. Electrophysiology revealed that both residues took part in proton transport. The spectroscopic analyses of Mistic-CSRB revealed its characteristics.
Fusion to the membrane-integrating protein Mistic can enhance overexpression of eukaryotic type I rhodopsins in E. coli.
These findings indicate that Mistic fusion and E. coli expression method could be an effective, low cost technique for studying eukaryotic membrane proteins. This may have useful implications, for example, in studying structural characteristics and optogenetics for rhodopsins.
由于藻类视紫红质(真核生物的七跨膜蛋白)通常难以在大肠杆菌中表达,因此已使用真核细胞进行异源表达。Mistic是一种最初在枯草芽孢杆菌中发现的膜相关蛋白,当用作与货物蛋白N端相连的融合伴侣时,已证明它可提高许多外源整合膜蛋白在大肠杆菌中的表达水平。
在此,我们在大肠杆菌中表达了两种带有N端和C端Mistic结构域的藻类视紫红质——伞藻视紫红质I(ARI)和衣藻感官视紫红质B(CSRB,通道视紫红质2)。利用紫外/可见光谱、质子受体残基的pH滴定、激光诱导光解和电生理测量来研究质子转运中的重要残基以及蛋白质的光谱特征。
两种藻类视紫红质的蛋白产量均有所提高,每升培养物可获得0.12mg的Mistic-ARI和0.04mg的Mistic-CSRB。原生质球表达的Mistic-ARI具有外向质子泵浦活性,表明蛋白具有功能。ARI的Asp89通过光吸收改变其质子化状态,Asp100对O(600)的形成很重要。电生理学研究表明这两个残基都参与质子转运。Mistic-CSRB的光谱分析揭示了其特征。
与膜整合蛋白Mistic融合可增强真核I型视紫红质在大肠杆菌中的过表达。
这些发现表明,Mistic融合和大肠杆菌表达方法可能是一种有效、低成本的研究真核膜蛋白的技术。这可能具有有益的意义,例如,在研究视紫红质的结构特征和光遗传学方面。
