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转导蛋白与光激活的视紫红质结合会阻止转导蛋白与视杆细胞环鸟苷酸磷酸二酯酶γ亚基相互作用。

Binding of transducin to light-activated rhodopsin prevents transducin interaction with the rod cGMP phosphodiesterase gamma-subunit.

作者信息

Artemyev N O

机构信息

Department of Physiology and Biophysics, University of Iowa College of Medicine, Iowa City 52242, USA.

出版信息

Biochemistry. 1997 Apr 8;36(14):4188-93. doi: 10.1021/bi963002y.

DOI:10.1021/bi963002y
PMID:9100013
Abstract

In photoreceptor cells of vertebrates, the GTP-bound alpha-subunit of rod G-protein, transducin (G(t alpha)), interacts with the cGMP phosphodiesterase inhibitory gamma-subunit (Pgamma) to activate the effector enzyme. The GDP-bound G(t alpha) can also bind the Pgamma subunit, albeit with a lower affinity than G(t alpha)GTP. In this work, interactions between G(t alpha)GDP and Pgamma or Pgamma-24-45Cys labeled with the fluorescent probe 3-(bromoacetyl)-7-(diethylamino)coumarin (PgammaBC, Pgamma-24-45BC) have been investigated. Addition of G(t alpha)GDP to PgammaBC produced approximately a 6-fold maximal increase in the probe fluorescence, while the fluorescence of Pgamma-24-45BC was enhanced by 2.3-fold. The Kd's for the G(t alpha)GDP binding to PgammaBC and Pgamma-24-45BC were 75 +/- 8 nM and 400 +/- 110 nM, respectively. The G(t betagamma) subunits had no notable effect on the binding of G(t alpha)GDP to PgammaBC or Pgamma-24-45BC, suggesting that Pgamma and G(t betagamma) bind to G(t alpha)GDP noncompetitively. The G(t alpha betagamma) interaction with the fluorescently labeled Pgamma was effectively blocked in the light-activated rhodopsin (R*)-G(t alpha betagamma) complex. Furthermore, addition of excess Pgamma or Pgamma-24-45 prevented binding of G(t alpha betagamma) to R*, indicating that the R* and Pgamma binding surfaces on G(t alpha betagamma) may overlap. It is likely that R* has a binding site within the alpha3-beta5 region of G(t alpha), which is a proposed site of G(t alpha)GDP binding to Pgamma-24-45. Alternatively, R* may induce conformational changes of the G(t alpha) alpha3-beta5 region such that the resulting structural changes alter the adjacent consensus sequence for the guanine ring binding of GDP/GTP(NKXD), and lead to a reduction in the affinity of G-protein for guanine nucleotides.

摘要

在脊椎动物的光感受器细胞中,视杆G蛋白转导素(G(tα))的GTP结合α亚基与环鸟苷酸磷酸二酯酶抑制性γ亚基(Pγ)相互作用,以激活效应酶。结合GDP的G(tα)也能结合Pγ亚基,尽管其亲和力低于G(tα)GTP。在这项研究中,我们研究了G(tα)GDP与用荧光探针3-(溴乙酰基)-7-(二乙氨基)香豆素标记的Pγ或Pγ-24-45Cys(PγBC、Pγ-24-45BC)之间的相互作用。向PγBC中加入G(tα)GDP可使探针荧光最大增加约6倍,而Pγ-24-45BC的荧光增强2.3倍。G(tα)GDP与PγBC和Pγ-24-45BC结合的解离常数(Kd)分别为75±8 nM和400±110 nM。G(tβγ)亚基对G(tα)GDP与PγBC或Pγ-24-45BC的结合没有显著影响,这表明Pγ和G(tβγ)与G(tα)GDP的结合是非竞争性的。在光激活的视紫红质(R*)-G(tαβγ)复合物中,G(tαβγ)与荧光标记的Pγ的相互作用被有效阻断。此外,加入过量的Pγ或Pγ-24-45可阻止G(tαβγ)与R的结合,这表明G(tαβγ)上R和Pγ的结合表面可能重叠。R可能在G(tα)的α3-β5区域内有一个结合位点,这是G(tα)GDP与Pγ-24-45结合的一个假定位点。或者,R可能诱导G(tα)α3-β5区域的构象变化,使得由此产生的结构变化改变了与GDP/GTP鸟嘌呤环结合的相邻共有序列(NKXD),并导致G蛋白对鸟嘌呤核苷酸的亲和力降低。

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