Hasegawa Makoto, Matsumoto-Ishikawa Yoshiko, Hijikata Atsushi, Hidaka Yuji, Go Mitiko, Shimonishi Yasutsugu
Faculty of Bioscience, Nagahama Institute of Bio-Science and Technology, Nagahama, Shiga, 526-0829, Japan.
Protein J. 2005 Jul;24(5):315-25. doi: 10.1007/s10930-005-6752-x.
Guanylyl cyclase C (GC-C) is a single-transmembrane receptor that is specifically activated by endogenous ligands, including guanylin, and the exogenous ligand, heat-stable enterotoxin. Using combined HPLC separation and MS analysis techniques the positions of the disulfide linkages in the extracellular ligand-binding domain (ECD) of GC-C were determined to be between Cys7-Cys94, Cys72-Cys77, Cys101-Cys128 and Cys179-Cys226. Furthermore, a three-dimensional structural model of the ECD was constructed by homology modeling, using the structure of the ECD of GC-A as a template (van den Akker et al., 2000, Nature, 406: 101-104) and the information of the disulfide linkages. Although the GC-C model was similar to the known structure of GC-A, importantly its ligand-binding site appears to be located on the quite different region from that in GC-A.
鸟苷酸环化酶C(GC-C)是一种单跨膜受体,可被包括鸟苷素在内的内源性配体和外源性配体热稳定肠毒素特异性激活。采用高效液相色谱分离和质谱分析相结合的技术,确定了GC-C细胞外配体结合结构域(ECD)中二硫键的位置在Cys7与Cys94、Cys72与Cys77、Cys101与Cys128以及Cys179与Cys226之间。此外,以GC-A的ECD结构为模板(范登·阿克等人,2000年,《自然》,406:101 - 104),利用二硫键信息,通过同源建模构建了ECD的三维结构模型。虽然GC-C模型与已知的GC-A结构相似,但重要的是,其配体结合位点似乎位于与GC-A截然不同的区域。