Kanaho Y, Tsai S C, Adamik R, Hewlett E L, Moss J, Vaughan M
J Biol Chem. 1984 Jun 25;259(12):7378-81.
Work in several laboratories has shown that Gi, the inhibitory guanyl nucleotide-binding protein of the adenylate cyclase system, is similar in many ways to transducin, the guanyl nucleotide-binding protein of the retinal light-activated cGMP phosphodiesterase system. Separated subunits of purified transducin, T alpha (approximately 39 kDa) and T beta gamma (approximately 35 and approximately 10 kDa), do not exhibit GTPase activity; GTPase activity is observed when the subunits are combined in the presence of rhodopsin ( Fung , B. K.-K. (1983) J. Biol. Chem. 258, 10495-10502). Subunits of Gi, Gi alpha (approximately 41 kDa), and Gi beta gamma (approximately 35 and approximately 10 kDa) were prepared from rabbit liver membranes. It was found that Gi beta gamma could replace T beta gamma in reconstituting the rhodopsin-stimulated GTPase activity of T alpha. Gi alpha exhibited rhodopsin-stimulated GTPase activity when reconstituted with Gi beta gamma or T beta gamma. GTPase activity was a function of Gi alpha concentration when Gi beta gamma or T beta gamma was constant, and the GTPase activity of a given amount of Gi alpha was dependent on Gi beta gamma concentration. These studies demonstrate that the GTPase activity of Gi resides in Gi alpha and further establish that Gi alpha and Gi beta gamma are functionally analogous to T alpha and T beta gamma, respectively.
多个实验室的研究表明,腺苷酸环化酶系统的抑制性鸟苷酸结合蛋白Gi,在许多方面与视网膜光激活的cGMP磷酸二酯酶系统的鸟苷酸结合蛋白转导素相似。纯化的转导素分离亚基Tα(约39 kDa)和Tβγ(约35 kDa和约10 kDa)不表现出GTP酶活性;当这些亚基在视紫红质存在的情况下组合时,可观察到GTP酶活性(冯,B.K.-K.(1983年)《生物化学杂志》258,10495 - 10502)。Gi的亚基Giα(约41 kDa)和Giβγ(约35 kDa和约10 kDa)是从兔肝细胞膜制备的。研究发现,在重建Tα的视紫红质刺激的GTP酶活性时,Giβγ可以替代Tβγ。当与Giβγ或Tβγ重组时,Giα表现出视紫红质刺激的GTP酶活性。当Giβγ或Tβγ恒定时,GTP酶活性是Giα浓度的函数,并且给定数量的Giα的GTP酶活性取决于Giβγ浓度。这些研究表明,Gi的GTP酶活性存在于Giα中,并进一步证实Giα和Giβγ在功能上分别类似于Tα和Tβγ。
