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1.
We have examined the ability of the beta gamma subunits of guanine nucleotide binding regulatory proteins (G proteins) to support the pertussis toxin (PT) catalyzed ADP-ribosylation of G protein alpha subunits. Substoichiometric amounts of the beta gamma complex purified from either bovine brain G proteins or the bovine retinal G protein, Gt, are sufficient to support the ADP-ribosylation of the alpha subunits of Gi (the G protein that mediates inhibition of adenylyl cyclase) and Go (a G protein of unknown function) by PT. This observation indicates that ADP-ribosylated G protein oligomers can dissociate into their respective alpha and beta gamma subunits in the absence of activating regulatory ligands, i.e., nonhydrolyzable GTP analogues or fluoride. Additionally, the catalytic support of ADP-ribosylation by bovine brain beta gamma does not require Mg2+. Although the beta gamma subunit complexes purified from bovine brain G proteins and the beta gamma complex of Gt support equally the ADP-ribosylation of alpha subunits by PT, there is a marked difference in their abilities to interact with Gs alpha. The enhancement of deactivation of fluoride-activated Gs alpha requires 25-fold more beta gamma from Gt than from brain G proteins to produce a similar response. This difference in potency of beta gamma complexes from the two sources was also observed in the ability of beta gamma to produce an increase in the activity of recombinant Gs alpha produced in Escherichia coli.  相似文献   

2.
In vitro synthesis of G protein beta gamma dimers   总被引:8,自引:0,他引:8  
The guanine nucleotide-binding proteins (G proteins), which play a central role in coupling membrane-bound receptors to intracellular effectors, are heterotrimers composed of alpha, beta, and gamma subunits. The beta and gamma subunits form a functional monomer that does not appear to separate under physiological conditions. This has made it difficult to differentiate the individual roles of beta and gamma subunits in signal transduction. To characterize the individual subunits, the 36-kDa beta subunit (beta 1), brain gamma (gamma 2), and transducin gamma (gamma t) were translated in vitro in a rabbit reticulocyte lysate system. Hydrodynamic studies and tryptic proteolysis were used to compare the physical properties of the in vitro translation products with those of beta gamma dimers purified from bovine brain. The hydrodynamic studies indicate that, without gamma subunits, the beta subunits are not stable but tend to aggregate into high molecular weight complexes. When beta and gamma subunits were co-translated, stable beta gamma dimers formed that bound alpha 0 in a guanine nucleotide-dependent manner. The beta gamma dimers were less hydrophobic than those purified from bovine brain. This may reflect a lack of post-translational modification in the reticulocyte lysate or other differences between the in vitro translation products and the purified beta gamma. When beta and gamma were translated separately and then mixed, beta gamma dimers also formed. Analysis of in vitro translated beta gamma subunits will provide ways to assess the function of these subunits and to determine the structural requirements for beta gamma formation.  相似文献   

3.
The 36-kDa beta 1, 35-kDa beta 2, and 6.5-kDa gamma 2 subunits of the heterotrimeric guanine nucleotide-binding proteins have been overexpressed in Sf9 cells using a baculovirus expression system. The gamma 2 subunit expressed in Sf9 cells incorporated label derived from [3H]mevalonate and is therefore likely to be isoprenylated, as is its mammalian counterpart. Extracts of Sf9 cells doubly infected with viruses encoding a beta subunit and viruses encoding a gamma subunit are active in promoting the pertussis toxin-catalyzed ADP-ribosylation of a G protein alpha subunit. However, extracts from Sf9 cells singly infected with viruses encoding either a beta or gamma subunit are not active in this assay. Results demonstrate utility of the insect/baculovirus system for expressing G protein beta gamma subunits of defined composition.  相似文献   

4.
Heterotrimeric guanine-nucleotide-binding regulatory proteins (G proteins) have been classified into several subtypes on the basis of the properties of their alpha subunits, though a notable multiplicity of gamma subunits has also been demonstrated. To investigate whether each subtype of alpha subunit is associated with a particular gamma subunit, various oligomeric G proteins, purified from bovine tissues, were subjected to gel electrophoresis in a Tricine buffer system. All G proteins examined were shown to have more than two kinds of gamma subunit. Of the brain G proteins, GoA, GoB, and Gi1 contain the same set of three gamma subunits, but Gi2 contains only two of these subunits. Lung Gi1 and Gi2 and spleen Gi2 and Gi3 had similar sets of two gamma subunits, one of which was distinct from the gamma subunits of brain G proteins. These observations indicate that each subtype of alpha subunit is associated with a variety of beta gamma subunits, and that the combinations differ among cells. For analyses of the structural diversity of the gamma subunits, beta gamma subunits were purified from the total G proteins of each tissue and subjected to reverse-phase HPLC under denaturing conditions, where none of the beta subunits were eluted from the column. Three distinct gamma subunits were isolated in this way from brain beta gamma subunits. In contrast, lung and spleen beta gamma subunits contained at least five gamma subunits, the elution positions and electrophoretic mobilities of which were indistinguishable between the two tissues. Among several gamma subunits, two subspecies appeared to be common to the three tissues. In fact, in each case, the partial amino acid sequence of the most abundant gamma subunit in each tissue was identical, and the sequences coincided exactly with that of 'gamma 6' [Robishaw, J. D., Kalman, V. K., Moomaw, C. R. & Slaughter, C. A. (1989) J. Biol. Chem. 264, 15758-15761]. Fast-atom-bombardment mass spectrometry analysis indicated that this abundant gamma subunit in lung and spleen was geranylgeranylated and carboxymethylated at the C-terminus, as was 'gamma 6' from brain. In addition to abundant gamma subunits, other tissue-specific gamma subunits were also shown to be geranylgeranylated by gas-chromatography-coupled mass spectrometry analysis of Raney nickel-treated gamma subunits. These results suggest that most gamma subunits associated with many different subtypes of alpha subunit are geranylgeranylated in a variety of tissues, with the single exception being the retina where the G protein transducin has a farnesylated gamma subunit.  相似文献   

5.
We have constructed mutants of the alpha subunit of Gs in an attempt to identify sites in the protein that are important for its interaction with adenylylcyclase. Some residues specific for those G proteins that activate adenylylcyclase were replaced with residues characteristic of Gi alpha. Mutant proteins were expressed in Escherichia coli, and two of these were purified to homogeneity and characterized in detail. Mutation of trp263, leu268, or arg269 caused a significant loss of the capacity of Gs alpha to stimulate adenylylcyclase, and the triple mutant had less than 1% of the ability of wild type Gs alpha to activate the enzyme. Guanine nucleotide binding and GTP hydrolysis by the mutant proteins were unaltered, as was guanosine 5'-3-O-(thio)triphosphate-induced enhancement of intrinsic tryptophan fluorescence. Mutant proteins also appeared to have a reduced affinity for the G protein beta gamma subunit complex. Secondary structure analysis and comparison with the structure of p21ras suggests that the region of Gs alpha that we have identified is part of a loop that may be involved in interaction of the protein with adenylylcyclase. Although these residues are essential for activation of adenylylcyclase, they are not sufficient to do this when placed in the context of another G protein alpha subunit.  相似文献   

6.
In Zajdela hepatoma cells (ZHC) the plasma membrane Ca2+ pump displayed no sensitivity to glucagon (19-29) (mini-glucagon), whereas in hepatocyte this metabolite of glucagon evoked a biphasic regulation of the Ca2+ pump system via a cholera toxin-sensitive G protein. Analysis of G protein subunits in ZHC membranes indicated the presence of cholera toxin-sensitive Gs alpha and G beta gamma proteins, whose functionality was manifested by GTP and NaF stimulation of adenylylcyclase activity, and pertussis toxin-catalyzed ADP-ribosylation of Gi alpha, respectively. However, immunoblotting experiments suggested a lower content in beta gamma subunits in ZHC as compared with hepatocyte plasma membranes. Complementation of ZHC or hepatocyte plasma membranes with purified beta gamma subunits from transducin (T beta gamma) caused inhibition of the basal activity of the Ca2+ pump at 10 and 300 ng/ml, respectively, and revealed (in ZHC) or increased (in hepatocytes) sensitivity of the system to mini-glucagon. After cholera toxin treatment of ZHC, T beta gamma no longer reconstituted the response of the Ca2+ pump to mini-glucagon, suggesting that the mechanism of beta gamma action is dependent on an association with the alpha subunit of a cholera toxin-sensitive G protein. It is concluded that G beta gamma subunits control both the basal activity of the plasma membrane Ca2+ pump and its inhibition by mini-glucagon.  相似文献   

7.
The beta and gamma subunits of G proteins are tightly bound under physiological conditions, and so far, seven beta and 11 gamma subunit isoforms have been found. The relative abilities of the beta and gamma subunits to associate with each other have been studied using transfected cell assays, in vitro translation and the yeast two-hybrid system, but have not been fully characterized in various tissues. In the present study, we demonstrated the selectivity of association of the beta with gamma isoforms in bovine tissues. Immunoprecipitation of betagamma complexes from tissue extracts with antibodies against various gamma subunits and subsequent analyses revealed that beta(4) associated with the gamma subunits with the following rank order of selectivity: gamma(5) > gamma(12) > gamma(2) > gamma(3), while beta(2) bound to gamma(2), gamma(3), and gamma(12) more selectively than to gamma(5). By contrast, beta(1) associated with all gamma subunits without significant selectivity. Analyses of purified betagamma complexes containing various gamma isoforms revealed beta subunit compositions similar to those found in the immunoprecipitates. Particular combinations of beta and gamma subunit isoforms may contribute to maintaining efficient and specific signal transduction mediated by G proteins.  相似文献   

8.
The complex role that the heterotrimeric G proteins play in signaling pathways has become increasingly apparent with the cloning of countless numbers of receptors, G proteins, and effectors. However, in most cases, the specific combinations of alpha and betagamma subunits comprising the G proteins that participate in the most common signaling pathways, such as beta-adrenergic regulation of adenylyl cyclase activity, are not known. The extent of this problem is evident in the fact that the identities of the betagamma subunits that combine with the alpha subunit of Gs are only now being elucidated almost 20 years after its initial purification. In a previous study, we described the first use of a ribozyme strategy to suppress specifically the expression of the gamma7 subunit of the G proteins, thereby identifying a specific role of this protein in coupling the beta-adrenergic receptor to stimulation of adenylyl cyclase activity in HEK 293 cells. In the present study, we explored the potential utility of a ribozyme approach directed against the gamma7 subunit to identify functional associations with a particular beta and alphas subunit of the G protein in this signaling pathway. Accordingly, HEK 293 cells were transfected with a ribozyme directed against the gamma7 subunit, and the effects of this manipulation on levels of the beta and alphas subunits were determined by immunoblot analysis. Among the five beta alphas subunits detected in these cells, only the beta1 subunit was coordinately reduced following treatment with the ribozyme directed against the gamma7 subunit, thereby demonstrating a functional association between the beta1 and gamma7 subunits. The mechanism for coordinate suppression of the beta1 subunit was due to a striking change in the half-life of the beta1 monomer versus the beta1 heterodimer complexed with the gamma7 subunit. Neither the 52- nor 45-kDa subunits were suppressed following treatment with the ribozyme directed against the gamma7 subunit, thereby providing insights into the assembly of the Gs heterotrimer. Taken together, these data show the utility of a ribozyme approach to identify the role of not only the gamma subunits but also the beta subunits of the G proteins in signaling pathways.  相似文献   

9.
The GTP-binding regulatory proteins (G proteins) that transduce signals from receptors to effectors are composed of alpha, beta, and gamma subunits. Whereas the role of alpha subunits in directly regulating effector activity is widely accepted, it has recently been demonstrated that beta gamma subunits may also directly regulate effector activity. This has made clear the importance of identifying and characterizing beta and gamma subunits. We have isolated a cDNA clone encoding a new gamma subunit, referred to here as the gamma 7 subunit, using probes based on peptide sequences of a gamma subunit previously purified from bovine brain. The clone contains a 1.47-kilobase cDNA insert, which includes an open reading frame of 204 base pairs that predicts a 68-amino acid polypeptide with a calculated M(r) of 7553. The predicted protein shares amino acid identities with the other known gamma subunits, ranging from 38 to 68%. Also characteristic of gamma subunits is a carboxyl-terminal CAAX motif. The expression of the gamma 7 subunit as well as the gamma 2, gamma 3, and gamma 5 subunits was examined in several bovine tissues at both the mRNA and protein levels. Whereas the gamma 2 and gamma 3 subunits were selectively expressed in brain, the gamma 5 and gamma 7 subunits were expressed in a variety of tissues. Thus, the gamma 5 and gamma 7 subunits are the first G protein gamma subunits known that could participate in the regulation of widely distributed signal transduction pathways.  相似文献   

10.
Heterotrimeric guanine nucleotide-binding proteins (G proteins) consisting of alpha, beta, and gamma subunits mediate signalling between cell surface receptors and intracellular effectors in eukaryotic cells. To define signalling functions of G gamma subunits (STE18 gene product) involved in pheromone response and mating in the yeast Saccharomyces cerevisiae, we isolated and characterized dominant-negative STE18 alleles. We obtained dominant-negative mutations that disrupt C-terminal sequences required for prenylation of G gamma precursors (CAAX box) and that affect residues in the N-terminal half of Ste18p. Overexpression of mutant G gamma subunits in wild-type cells blocked signal transduction; this effect was suppressed upon overexpression of G beta subunits. Mutant G gamma subunits may therefore sequester G beta subunits into nonproductive G beta gamma dimers. Because mutant G gamma subunits blocked the constitutive signal resulting from disruption of the G alpha subunit gene (GPA1), they are defective in functions required for downstream signalling. Ste18p bearing a C107Y substitution in the CAAX box displayed reduced electrophoretic mobility, consistent with a prenylation defect. G gamma subunits carrying N-terminal substitutions had normal electrophoretic mobilities, suggesting that these proteins were prenylated. G gamma subunits bearing substitutions in their N-terminal region or C-terminal CAAX box (C107Y) supported receptor-G protein coupling in vitro, whereas C-terminal truncations caused partial defects in receptor coupling.  相似文献   

11.
Gs and Gi, respectively, activate and inhibit the enzyme adenylyl cyclase. Regulation of adenylyl cyclase by the heterotrimeric Gs and Gi proteins requires the dissociation of GDP and binding of GTP to the alpha s or alpha i subunit. The beta gamma subunit complex of Gs and Gi functions, in part, to inhibit GDP dissociation and alpha subunit activation by GTP. Multiple beta and gamma polypeptides are expressed in different cell types, but the functional significance for this heterogeneity is unclear. The beta gamma complex from retinal rod outer segments (beta gamma t) has been shown to discriminate between alpha i and alpha s subunits (Helman et al: Eur J Biochem 169:431-439, 1987). beta gamma t efficiently interacts with alpha i-like G protein subunits, but poorly recognizes the alpha s subunit. beta gamma t was, therefore, used to define regions of the alpha i subunit polypeptide that conferred selective regulation compared to the alpha s polypeptide. A series of alpha subunit chimeras having NH2-terminal alpha i and COOH-terminal alpha s sequences were characterized for their regulation by beta gamma t, measured by the kinetics of GTP gamma S activation of adenylyl cyclase. A 122 amino acid NH2-terminal region of the alpha i polypeptide encoded within an alpha i/alpha s chimera was sufficient for beta gamma t to discriminate the chimera from alpha s. A shorter 54 amino acid alpha i sequence substituted for the corresponding NH2-terminal region of alpha s was insufficient to support the alpha i-like interaction with beta gamma t. The findings are consistent with our previous observation (Osawa et al: Cell 63:697-706, 1990) that a region in the NH2-terminal moiety functions as an attenuator domain controlling GDP dissociation and GTP activation of the alpha subunit polypeptide and that the attenuator domain is involved in functional recognition and regulation by beta gamma complexes.  相似文献   

12.
To investigate the role of subcellular localization in regulating the specificity of G protein betagamma signaling, we have applied the strategy of bimolecular fluorescence complementation (BiFC) to visualize betagamma dimers in vivo. We fused an amino-terminal yellow fluorescent protein fragment to beta and a carboxyl-terminal yellow fluorescent protein fragment to gamma. When expressed together, these two proteins produced a fluorescent signal in human embryonic kidney 293 cells that was not obtained with either subunit alone. Fluorescence was dependent on betagamma assembly in that it was not obtained using beta2 and gamma1, which do not form a functional dimer. In addition to assembly, BiFC betagamma complexes were functional as demonstrated by more specific plasma membrane labeling than was obtained with individually tagged fluorescent beta and gamma subunits and by their abilities to potentiate activation of adenylyl cyclase by alpha(s) in COS-7 cells. To investigate isoform-dependent targeting specificity, the localization patterns of dimers formed by pair-wise combinations of three different beta subunits with three different gamma subunits were compared. BiFC betagamma complexes containing either beta1 or beta2 localized to the plasma membrane, whereas those containing beta5 accumulated in the cytosol or on intracellular membranes. These results indicate that the beta subunit can direct trafficking of the gamma subunit. Taken together with previous observations, these results show that the G protein alpha, beta, and gamma subunits all play roles in targeting each other. This method of specifically visualizing betagamma dimers will have many applications in sorting out roles for particular betagamma complexes in a wide variety of cell types.  相似文献   

13.
Heterotrimeric guanine nucleotide-binding proteins are composed of alpha and beta gamma subunits and couple a variety of cell-surface receptors to intracellular enzymes or ion channels. The heterotrimer dissociates into alpha and beta gamma subunits when the alpha subunit is activated by guanine nucleoside triphosphates. Several lines of evidence show that the amino terminus of the alpha subunit is important for the interaction with the beta gamma subunit (Neer, E. J., Pulsifer, L., and Wolf, L. G. (1988) J. Biol. Chem. 263, 8996-9000; Fung, B. K.-K., and Nash, C. R. (1983) J. Biol. Chem. 258, 10503-10510). We have mutagenized the amino terminus of alpha o to dissect the relative contributions of amino-terminal myristoylation and specific amino acid sequences to subunit interaction. Wild-type and mutant alpha o cDNAs were translated in vitro in a rabbit reticulocyte lysate. All proteins were able to bind guanosine 5'-(gamma-thio)triphosphate and to achieve the necessary conformation for protection from tryptic digestion. Two assays of alpha o beta gamma interactions were used: sucrose density gradients to look for stable heterotrimer formation and ADP-ribosylation by pertussis toxin to detect weak or transient alpha o beta gamma interactions. Our results indicate that myristoylation is essential for stable heterotrimer formation, but that nonmyristoylated proteins are also capable of interacting with the beta gamma subunit. Amino acids 7-10 have an important role in alpha o beta gamma interactions whether alpha o is myristoylated or not. Deletion of this region diminishes the ability of alpha o to interact with the beta gamma subunit, but substitutions at this position indicate that other amino acids can be tolerated without affecting subunit interaction.  相似文献   

14.
Voltage-dependent calcium channels (VDCCs) are heteromultimers composed of a pore-forming alpha1 subunit and auxiliary subunits, including the intracellular beta subunit, which has a strong influence on the channel properties. Voltage-dependent inhibitory modulation of neuronal VDCCs occurs primarily by activation of G-proteins and elevation of the free G beta gamma dimer concentration. Here we have examined the interaction between the regulation of N-type (alpha 1 B) channels by their beta subunits and by G beta gamma dimers, heterologously expressed in COS-7 cells. In contrast to previous studies suggesting antagonism of G protein inhibition by the VDCC beta subunit, we found a significantly larger G beta gamma-dependent inhibition of alpha 1 B channel activation when the VDCC alpha 1 B and beta subunits were coexpressed. In the absence of coexpressed VDCC beta subunit, the G beta gamma dimers, either expressed tonically or elevated via receptor activation, did not produce the expected features of voltage-dependent G protein modulation of N-type channels, including slowed activation and prepulse facilitation, while VDCC beta subunit coexpression restored all of the hallmarks of G beta gamma modulation. These results suggest that the VDCC beta subunit must be present for G beta gamma to induce voltage-dependent modulation of N-type calcium channels.  相似文献   

15.
A complementary DNA that encodes a bovine brain, calmodulin-sensitive (type I) adenylylcyclase has been inserted into the baculovirus genome under the control of the strong polyhedron promoter. Expression of the recombinant adenylylcyclase in Sf9 cells using recombinant baculovirus increases adenylylcyclase activity in cell membranes to 10-20 nmol.min-1.mg-1 (approximately 0.1% of membrane protein). The catalytic activity of the recombinant adenylylcyclase can be stimulated by Gs alpha, calmodulin, or forskolin, and it can be inhibited by adenosine analogs and by G protein beta gamma subunit. The specific activity of the purified recombinant protein approximates 5 mumol.min-1.mg-1. This is similar to that of the enzyme purified from bovine brain. Type I adenylylcyclase has a quasiduplicated structure. There are two membrane-spanning domains, each with six putative transmembrane helices, and there are two presumed nucleotide-binding domains that are about 55% similar to each other. No catalytic activity is detectable when each half of the adenylylcyclase molecule is expressed by itself. However, coexpression of the two halves results in considerable enzymatic activity. Interaction between the two halves of adenylylcyclase may be necessary for catalysis.  相似文献   

16.
W N Green  A F Ross  T Claudio 《Neuron》1991,7(4):659-666
Different combinations of Torpedo acetylcholine receptor (AChR) subunits stably expressed in mouse fibroblasts were used to establish a role for phosphorylation in AChR biogenesis. When cell lines expressing fully functional AChR complexes (alpha 2 beta gamma delta) were labeled with 32P, only gamma and delta subunits were phosphorylated. Forskolin, which causes a 2- to 3-fold increase in AChR expression by stimulating subunit assembly, increased unassembled gamma phosphorylation, but had little effect on unassembled delta. The forskolin effect on subunit phosphorylation was rapid, significantly preceding its effect on expression. The pivotal role of the gamma subunit was established by treating alpha beta gamma and alpha beta delta cell lines with forskolin and observing increased expression of only alpha beta gamma complexes. This effect was also observed in alpha gamma, but not alpha delta cells. We conclude that the cAMP-induced increase in expression of cell surface AChRs is due to phosphorylation of unassembled gamma subunits, which leads to increased efficiency of assembly of all four subunits.  相似文献   

17.
18.
Kumar P  Brushia RJ  Hoye E  Walsh DA 《Biochemistry》2004,43(31):10247-10254
Recombinant baculoviruses were created and used to coexpress rat phosphorylase kinase (Phk) alpha, gamma, and delta subunits and rabbit beta subunit in insect cells. Coexpression allowed creation of the (alphabetagammadelta)4 hexadecamer, the alphagammadelta heterotrimer, and the gammadelta heterodimeric subcomplexes. Neither the individual alpha, beta, or gamma subunit nor any complex containing the beta subunit other than the hexadecameric holoenzyme was obtained in soluble form. The expressed complexes exhibited pH- and [Ca2+]-dependent specific activities that were similar to those of the Phk holoenzyme purified from rabbit skeletal muscle (SkM Phk). SkM Phk, expressed Phk, and the alphagammadelta subcomplex were activated by exogenous calmodulin and underwent Ca(2+)-dependent autophosphorylation. In some of these features there were subtle differences that could likely be attributed to differences in the covalent modification state of the baculovirus-driven expressed protein. Our results provide an important avenue to probe the detailed characterization of the structure of Phk and the function of the individual domains of the subunits using baculovirus-mediated expression of Phk and Phk subcomplexes.  相似文献   

19.
Receptor stimulation of nucleotide exchange in a heterotrimeric G protein (alphabetagamma) is the primary event-modulating signaling by G proteins. The molecular mechanisms at the basis of this event and the role of the G protein subunits, especially the betagamma complex, in receptor activation are unclear. In a reconstituted system, a purified muscarinic receptor, M2, activates G protein heterotrimers alphai2beta1gamma5 and alphai2beta1gamma7 with equal efficacy. However, when the alpha subunit type is substituted with alphao, alphaobeta1gamma7 shows a 100% increase in M2-stimulated GTP hydrolysis compared with alphaobeta1gamma5. Using a sensitive assay based on betagamma complex stimulation of phospholipase C activity, we show that both beta1gamma5 and beta1gamma7 form heterotrimers equally well with alphao and alphai. These results indicate that the gamma subunit interaction with a receptor is critical for modulating nucleotide exchange and is influenced by the subunit-type composition of the heterotrimer.  相似文献   

20.
The beta gamma subunits of guanine nucleotide binding proteins from bovine brain and bovine rod outer segments have different structural and immunochemical properties. In spite of these structural differences, beta gamma subunits from these sources have been found to be fully interchangeable in terms of their interaction with alpha subunits of pertussis-toxin-sensitive G proteins. In contrast, however, there are striking differences between these beta gamma subunits with regard to their ability to deactivate fluoride-stimulated Gs. These profound differences were also observed when the interaction of the purified components of the adenylate cyclase system was studied after reconstitution into phospholipid vesicles. Addition of beta gamma purified from bovine brain to vesicles containing beta-receptor and Gs results in a biphasic effect on receptor-stimulated GTPase activity, whereas addition of transducin beta gamma was virtually without any effect. Likewise, beta gamma from bovine brain, but not transducin beta gamma, affected adenylate cyclase activity of a reconstituted system consisting of three purified components (R, Gs, C). Thus, the alpha subunit of Gs, but not the alpha subunits of pertussis-toxin-sensitive G proteins discriminate between structurally different beta gamma subunits.  相似文献   

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