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1.
The stimulatory and inhibitory regulatory components of adenylyl cyclase (Ns and Ni), purified to apparent homogeneity without the use of regulatory ligands such as Mg, NaF, and guanyl-5'-yl imidodiphosphate, were tested for GTPase activity by incubating them with [gamma-32P]GTP and measuring 32Pi liberation using a charcoal adsorption assay to separate hydrolyzed from nonhydrolyzed radioactivity. We found that Ni is capable of hydrolyzing GTP. The activity was shown to be due to Ni itself and not to presence of one of its minor contaminants by correlating activity with abundance of the 40,000 Da alpha i subunit throughout the last stages of purification and by showing co-migration on a sucrose density gradient of the GTP-hydrolyzing activity with the alpha i, beta, and gamma subunits of Ni and not with any one of three minor contaminants present in the preparation tested. Preparations of Ns, free of detectable Ni, exhibited less than 10% the capacity to hydrolyze GTP, as compared to Ni on an equal protein basis. The basic properties of the GTP-hydrolyzing activity of Ni were determined. The activity is dependent on Mg ion (apparent Km = 5 to 15 nM), and is rapidly lost upon incubation with Mg2+ in the absence of GTP. MgGTP and free GTP serve equally well as substrate (apparent Km about 40 nM). Isotopic dilution studies indicate that the GTP binding site has a relative affinity for guanine nucleotides in the order GTP = GTP gamma S greater than GDP = GMP-P(NH)P greater than GDP beta S with the highest difference (GTP versus GDP beta S) being about 10-fold. NaF inhibited GTP hydrolysis by Ni at concentrations at which it activates Ni in intact membranes.  相似文献   
2.
We report the molecular cloning of a fragment of human genomic DNA called S12, containing an open reading frame of 1170 nucleotides, which encodes a receptor for serotonin of 390 amino acids. The receptor function of the S12 protein was demonstrated by functional expression in mouse LS12 cells obtained by stable transfection of Ltk- cells, and LM5S12 cells, derived from LM5 cells (Ltk- cells previously transfected with the M5 muscarinic acetylcholine receptor). Adenylyl cyclase studies showed that the S12 receptor is able to mediate inhibition of adenylyl cyclase in response to serotonin in both types of cells. As studied in LM5S12 cells, the S12 receptor did not promote Ca2+ mobilization from internal stores, nor did it significantly modulate the sustained increase in [Ca2+]i elicited by stimulation of the phospholipase C stimulating M5 acetylcholine receptor. The pharmacologic profile of S12 as seen in adenylyl cyclase assays is as follows: (EC50 in nM): serotonin, full agonist (37 nM), 5-carboxamidotryptamine, full agonist (10 nM), sumatriptan, full agonist (50 nM), metergoline, partial agonist (10 nM), methysergide, partial agonist (40 nM), yohimbine, partial agonist (150 nM), metitepin, antagonist (KB = 0.7 to 1.2 nM). We propose that the human S12 serotonin receptor is a receptor of the 5-hydroxytryptamine1D subtype.  相似文献   
3.
Somatostatin (SS) inhibits secretion from many cells, including clonal GH3 pituitary cells, by a complex mechanism that involves a pertussis toxin (PTX)-sensitive step and is not limited to its cAMP lowering effect, since secretion induced by cAMP analogs and K+ depolarization are also inhibited. SS also causes membrane hyperpolarization which may lead to decreases in intracellular Ca2+ need for secretion. Using patch clamp techniques we now demonstrate: 1) that both (SS) and acetylcholine applied through the patch pipette to the extracellular face of a patch activate a 55-picosiemens K+ channel without using a soluble second messenger; 2) that, after patch excision, the active state of the ligand-stimulated channel is dependent on GTP in the bath, is abolished by treatment of the cytoplasmic face of the patch with activated PTX and NAD+, and after inactivation by PTX, is restored in a GTP-dependent manner by addition of a nonactivated human erythrocyte PTX-sensitive G protein, and 3) that the 55-picosiemens K+ channel can also be activated in a ligand-independent manner with guanosine [gamma-thio] triphosphate (GTP gamma S) or with Mg2+/GTP gamma S-activated erythrocyte G protein. We call this protein GK. It is an alpha-beta-gamma trimer of which we have previously shown that the alpha-subunit is the substrate for PTX and that it dissociates on activation with Mg2+/GTP gamma S into alpha-GTP gamma S plus beta-gamma. A similarly activated and dissociated preparation of GS, the stimulatory regulatory component of adenylyl cyclase, having a different alpha-subunit but the same beta-gamma-dimer, was unable to cause K+ opening.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   
4.
cDNA cloning has identified the presence in the human genome of three genes encoding alpha subunits of pertussis toxin substrates, generically called "Gi." They are named alpha i-1, alpha i-2 and alpha i-3. However, none of these genes has been functionally identified with any of the alpha subunits of several possible G proteins, including pertussis toxin-sensitive Gp's, stimulatory to phospholipase C or A2, Gi, inhibitory to adenylyl cyclase, or Gk, stimulatory to a type of K+ channels. We now report the nucleotide sequence and the complete predicted amino acid sequence of human liver alpha i-3 and the partial amino acid sequence of proteolytic fragments of the alpha subunit of human erythrocyte Gk. The amino acid sequence of the proteolytic fragment is uniquely encoded by the cDNA of alpha i-3, thus identifying it as alpha k. The probable identity of alpha i-1 with alpha p and possible roles for alpha i-2, as well as additional roles for alpha i-1 and alpha i-3 (alpha k) are discussed.  相似文献   
5.
Two DNA molecules complementary to human liver mRNA coding for the alpha-subunit of the stimulatory regulatory component Gs of adenylyl cyclase were cloned. One of the two forms is a full-length cDNA of 1614 nucleotides plus a poly(A) tail of 59 nucleotides. The deduced sequence of 394 amino acids encoded by its open reading frame is essentially identical to that of the alpha-subunits of Gs identified by molecular cloning from bovine adrenals, bovine brain and rat brain. Two independent clones of the other type of cDNA were isolated. Both were incomplete, beginning within the open reading frame coding for the alpha s polypeptide. One codes for amino acids 5 through 394 and the other for amino acids 48 through 394 of the above described cDNA of 1614 nucleotides, and both have the identical 3'-untranslated sequence. They differ from the first cDNA, however, in that they lack a stretch of 42 nucleotides (numbers 214 through 255) and have nucleotides 213 (G) and 256 (G) replaced with C and A, respectively. This results in a predicted amino acid composition of another alpha-subunit of Gs that is shorter by 14 amino acids and contains two substitutions (Asp for Glu and Ser for Gly) at the interface between the deletion and the unchanged sequence. We call the smaller subunit alpha s1 and the larger alpha s2. This is the first demonstration of a structural heterogeneity in alpha s subunits that is due to a difference in amino acid sequence.  相似文献   
6.
7.
The diversity of L-type calcium channels was probed using the polymerase chain reaction and primers based on regions conserved in the L-type skeletal muscle (CaCh 1) and cardiac calcium channels (CaCh 2). Related sequences were amplified from human heart, hamster heart, rabbit heart, mouse ovary, mouse BC3H1 cells, and hamster insulin-secreting (HIT) cells. Sequencing of various clones revealed the presence of alternate splicing in gene products coding for CaCh 1, CaCh 2, and a related calcium channel. This related gene product, which we refer to as neuroendocrine or CaCh 3, is expressed in brain and endocrine cells. The diverse products can be explained by the use of alternate exons of equal size, which account for changes in amino acid composition, in combination with an alternate splice acceptor site or an exon skipping event, which produces channels of variable length. Four variants were defined for the gene 3 product, subtypes 3a, 3b, 3c, and 3d that differed in both the sequence of the third membrane spanning segment of the fourth repeat unit (IVS3) and in the size of the linker between this and the fourth membrane spanning segment (IVS4). Three CaCh 2 variants were cloned, subtypes 2a, 2c, and 2d, that are homologous to the a, c, and d variants of CaCh 3. For the skeletal muscle calcium channel only two variants were isolated. They are homologous to those of the a and c subtypes of CaCh 2 or 3, in that they differ only in the size of the IVS3 to IVS4 linker. These results demonstrate that calcium channel diversity is created by both the expression of distinct genes and the alternate splicing of these genes.  相似文献   
8.
Lipid modifications that may be introduced into several subunits of G proteins were explored by in vitro translation of recombinant mRNAs in reticulocyte lysates. In agreement with studies by others, myristic acid was incorporated into alpha i's and alpha o, but not alpha s, beta, or gamma's. In contrast, mevalonate (Mev) was incorporated only into gamma-subunits. Both, the gamma-subunit of transducin (gamma T) and that of other G proteins (gamma G) were modified by the lysates but with different characteristics. Labeled gamma T was unstable and was rapidly proteolyzed. Labeled gamma G was stable. The Mev-derivative in gamma G was sensitive to methyliodide and, after cleavage and chromatographic analysis, comigrated with the C20 polyisoprenol geranylgeraniol. This indicated that gamma G had been geranylgeranylated and that this polyisoprenoid was attached to the protein through a thioether linkage. It is thought that polyisoprenylation is defined by the COOH-terminal sequence Cys-A-A-X, where A is an aliphatic acid and X is any amino acid. Replacement by mutation of the Cys of the COOH-terminal -Cys-Ala-Ile-Leu sequence of gamma G with Ser abolished Mev incorporation, suggesting this Cys as the site of attachment of the geranylgeranyl moiety. Yet, Mev incorporation was less than 10% as much into gamma G with the Cys-A-A-X sequence -Cys-Ala-Ile-Trp. Consistent with geranylgeranylation, the C15 farnesyl moiety of farnesyl pyrophosphate was not incorporated into gamma G unless the incubations were fortified with Mev. In contrast, the farnesyl moiety was incorporated in an Mev-independent manner into gamma T (COOH terminus: -Cys-Val-Ile-Ser) and c-Ha-ras (COOH terminus: -Cys-Val-Leu-Ser) which are both farnesylated rather than geranylgeranylated. Thus, 1) separate enzymes appear to be involved in transferring farnesyl and geranylgeranyl groups to proteins, 2) structural factors other than the CAAX box contribute to the activity of the polyisoprenylating enzymes, and 3) this type of lipidation may be part of a proteolytic signaling system. Polyisoprenylation, which increases hydrophobicity of the derivatized protein, may play a role in anchoring not only ras but also G proteins to membranes.  相似文献   
9.
The skeletal muscle dihydropyridine receptor/Ca2+ channel is composed of five protein components (alpha 1, alpha 2 delta, beta, and gamma). Only two such components, alpha 1 and alpha 2, have been identified in heart. The present study reports the cloning and expression of a novel beta gene that is expressed in heart, lung, and brain. Coexpression of this beta with a cardiac alpha 1 in Xenopus oocytes causes the following changes in Ca2+ channel activity: it increases peak currents, accelerates activation kinetics, and shifts the current-voltage relationship toward more hyperpolarized potentials. It also increases dihydropyridine binding to alpha 1 in COS cells. These results indicate that the cardiac L-type Ca2+ channel has a similar subunit structure as in skeletal muscle, and provides evidence for the modulatory role of the beta subunit.  相似文献   
10.
The baculovirus-based expression system was adapted to express alpha subunits of the complete (alpha i3) and an amino-terminally truncated (alpha i3') form of Gi3 and of two complete forms of Gs (alpha s-L and alpha s-S). Subunits encoded in full length cDNAs were obtained with yields of 40-60 mg of recombinant protein/liter of cells, of which alpha i3 was between 30 and 50% soluble, but alpha s subunits were only 5-10% soluble. Only the complete alpha i3 was myristoylated. alpha i3 was purified in four steps. The purified protein bound 0.8-0.9 mol of guanosine 5'-3-O-(thio)triphosphate (GTP gamma S) per mol of protein and had one predominant contaminant which was identified as a truncated form that begins with methionine 18 instead of methionine 1. Both the full length alpha i3 and the truncated alpha i3' formed trimers with human erythrocyte beta gamma as seen by their migration in sucrose density gradients and by an increased rate of ADP ribosylation by pertussis toxin, but compared to alpha i3, alpha i3' interacted with beta gamma with a reduced affinity and dissociated upon warming. At 32 degrees C, only full length alpha i3 was ADP-ribosylated; at 4 degrees C, alpha i3 and alpha i3' were both ADP-ribosylated, with the truncated form requiring approximately 200-fold higher concentrations of beta gamma. A genetically engineered alpha i3' (alpha i3[18-354]) was also expressed in Sf9 cells. Yields, assessed as saturable GTP gamma S binding sites, were 3-5 mg per liter. Scatchard analysis showed that truncation of the amino terminus interferes with the ability of Mg2+ to promote high affinity binding of GTP gamma S. We conclude that the G protein alpha subunit amino terminus is not essential for interaction with beta gamma dimers, but rather is important in determining the affinity of the alpha subunit for both the beta gamma dimers and guanine nucleotide.  相似文献   
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