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Query: EC:4.6.1.1 (
adenylate cyclase
)
19,190
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Using PCR technology, we have cloned parts of three developmentally regulated putative serine/threonine kinases from Dictyostelium. All show significant homology to members of the cAMP-dependent protein kinase A/protein kinase C subfamilies. A
genomic clone
encoding one of these, DdPK3, has been isolated and sequenced. The open reading frame encodes a protein of 648 amino acids with the conserved kinase domain in the C-terminal half. The protein encoded by this gene is unusual in that it contains long homopolymer runs in the N-terminal half of the protein, including a long run of 88 amino acids in which 73 are glutamine residues. To examine the function of DdPK3, a gene disruption was created via homologous recombination. Ddpk3- cells do not aggregate by themselves but will co-aggregate with wild-type cells. However, after aggregation these cells are 'sloughed off' and do not proceed further through development, but are found as a discrete mass alongside the fruiting body formed by the wild-type cells. Analysis of signal transduction pathways indicates that cAMP pulse-induced expression of aggregation stage-specific genes is normal in Ddpk3- cells, as is induction of the prestalk gene Ddras in single cell assays. However, cAMP induction of the late promoters of cAMP receptor cAR1 and of two prespore-specific genes is absent under similar conditions. These cells show normal activation of
adenylate cyclase
and normal phosphorylation of the G alpha protein G alpha 2 in response to cAMP. The possible role of DdPK3 in Dictyostelium development is discussed.
...
PMID:A developmentally regulated, putative serine/threonine protein kinase is essential for development in Dictyostelium. 183 54
The PvuII fragment of human
genomic clone
LCV-517 which contains the entire coding region of a beta-adrenergic receptor gene was cloned into the SmaI site of the expression vector pMSG. The recombinant DNA was cotransfected with pRSVneo into mouse B-82 cells using the CaPO4 precipitation method. B-82 cells do not possess beta-adrenergic receptors but do contain prostaglandin E1 receptors that stimulate
adenylate cyclase
. Following transfection, several colonies expressing beta-adrenergic receptors were isolated. Analysis of ligand binding to expressed beta-receptors indicated that the protein encoded by the gene in clone LCV-517 was a beta 2-adrenergic subtype. Human beta 2-adrenergic receptors photoaffinity labeled with [125I]iodocyanopindolol diazirine migrated on sodium dodecyl sulfate-polyacrylamide gels consistent with a molecular mass of 68,000, demonstrating that the receptor is glycosylated to an extent of 25-30% by weight. Addition of isoproterenol to cultures of transfected cells resulted in a 3-4-fold stimulation of
adenylate cyclase
, an effect similar to that seen in control B-82 cells with prostaglandin E1. These data describe the production of stable murine clonal cell lines expressing human beta 2-adrenergic receptors and illustrate the utility of such lines in the biochemical and pharmacological characterization of receptor proteins.
...
PMID:Continuous high density expression of human beta 2-adrenergic receptors in a mouse cell line previously lacking beta-receptors. 282 1
Screening of a human placenta lambda gt11 library has led to the isolation of the cDNA for the human beta 1-adrenergic receptor (beta 1AR). Used as the probe was the human
genomic clone
termed G-21. This clone, which contains an intronless gene for a putative receptor, was previously isolated by virtue of its cross hybridization with the human beta 2-adrenergic receptor (beta 2AR). The 2.4-kilobase cDNA for the human beta 1AR encodes a protein of 477 amino acid residues that is 69% homologous with the avian beta AR but only 54% homologous with the human beta 2AR. This suggests that the avian gene encoding beta AR and the human gene encoding beta 1AR evolved from a common ancestral gene. RNA blot analysis indicates a message of 2.5 kilobases in rat tissues, with a pattern of tissue distribution consistent with beta 1AR binding. This pattern is quite distinct from the pattern obtained when the beta 2AR cDNA is used as a probe. Expression of receptor protein in Xenopus laevis oocytes conveys
adenylate cyclase
responsiveness to catecholamines with a typical beta 1AR specificity. This contrasts with the typical beta 2 subtype specificity observed when the human beta 2AR cDNA is expressed in this system. Mammalian beta 1AR and beta 2AR are thus products of distinct genes, both of which are apparently related to the putative G-21 receptor.
...
PMID:Cloning of the cDNA for the human beta 1-adrenergic receptor. 282 70
A
genomic clone
encoding the gene for the mouse M1 muscarinic acetylcholine receptor has been isolated, placed under the control of the zinc-inducible mouse metallothionein promoter, and transfected into mouse Y1 adrenal cells. The receptor concentration was about 300 fmol/mg membrane protein in the absence of zinc and could be increased to 4000 fmol/mg membrane protein in the presence of increasing concentrations of zinc. The receptor expressed in zinc-induced cells exhibits the high affinity binding for quinuclidinyl benzilate, atropine, and pirenzepine expected of the M1 muscarinic receptor. The M1 receptor when expressed in Y1 or L cells is physiologically active, as measured by agonist-dependent stimulation of phosphatidylinositol metabolism, but does not inhibit forskolin stimulation of cAMP accumulation. In contrast, a cloned M2 muscarinic receptor when expressed in Y1 cells is able to inhibit forskolin stimulation of cAMP accumulation, but is unable to stimulate phosphatidylinositol metabolism. The stimulation of phosphatidylinositol metabolism mediated by the M1 receptor was not altered by prior treatment of Y1 cells with concentrations of islet-activating protein sufficient to eliminate M2 receptor-mediated inhibition of
adenylate cyclase
. The cloned M1 receptor gene thus exhibits both the pharmacological and physiological properties expected of the M1 muscarinic acetylcholine receptor. In addition, these results indicate that different subtypes of the muscarinic receptor are coupled to different physiological responses.
...
PMID:Isolation, sequence, and functional expression of the mouse M1 muscarinic acetylcholine receptor gene. 284 36
Three genomic clones encoding dopamine D1-like receptors were isolated from the avian species Gallus domesticus. Two of these genes encode proteins of 451 and 488 amino acids, which, based on deduced amino acid sequence identity and homology of exhibited pharmacological profiles, appear to be species homologs of mammalian and vertebrate D1/D1A and D5/D1B receptors, respectively. The third
genomic clone
, termed D1D, encodes a protein of 445 amino acids displaying a deduced amino acid sequence identity within putative transmembrane domains of 75% to mammalian D1/D1A and 77% to D5/D1B receptors with overall sequence homologies of only 49% and 46%, respectively. Membranes from COS-7 cells transfected with D1D DNA bound [3H]SCH-23390 in a saturable manner with high affinity (approximately 300 pM) and with a pharmacological profile clearly indicative of a dopamine D1-like receptor. The D1D receptor exhibited affinities for 6,7-dihydroxy-2-aminotetralin and dopamine 10-fold higher than D1/D1A receptors, characteristic of the D5/D1B receptor subfamily. In contrast, the D1D receptor bound dopaminergic agents, such as SKF-38393, apomorphine, pergolide, and lisuride, with affinities 10-fold higher than other cloned mammalian or vertebrate D1A/D1B receptor subtypes, while both clozapine and haloperidol displayed considerably lower affinity for the D1D receptor. Based on the low overall amino acid sequence identity (54%) and unique pharmacological profile, the avian dopamine D1D receptor does not appear to be a species homolog of the recently cloned vertebrate D1C receptor (Sugamori, K.S., Demchyshyn, L. L., Chung, M., and Niznik, H. B. (1994) Proc. Natl. Acad. Sci. U.S.A. 91, 10536-10540). As with all cloned mammalian and vertebrate D1-like receptors, the D1D receptor stimulates
adenylate cyclase
activity in the presence of dopamine or SKF-82526. Northern blot analysis reveals the selective expression of both avian D1D and D1A receptor mRNAs only in brain with the D1B receptor more widely distributed and localized in tissues such as brain, kidney, and spleen. The isolation of four distinct vertebrate dopamine D1 receptor subtypes suggests the existence of additional mammalian D1 like receptor genes that may account for the observed pharmacological and biochemical multiplicity of dopamine D1-like receptor mediated events.
...
PMID:The dopamine D1D receptor. Cloning and characterization of three pharmacologically distinct D1-like receptors from Gallus domesticus. 787 48
A new member of the G protein-coupled receptor superfamily has been isolated from an ovine genomic library with a probe generated by the application of the PCR technique, using cDNA synthesized on a mRNA template isolated from the ovine pars tuberalis. This
genomic clone
encodes a novel receptor of 325 amino acids with seven transmembrane domains. These domains share homology with other members of this family, but the best homology is with the recently cloned human MC-1 (50% in the transmembrane domains) and MC-3 (69% in the transmembrane domains) MSH receptors and the human ACTH (42% in the transmembrane domains) receptor. When this receptor was expressed in Cos7 cells, it was able to bind a potent analogue of alpha-MSH, [Nle4,D-Phe7]-alpha-MSH (NDP-MSH), with high affinity. This binding could be displaced by pro-opiomelanocortin-derived and related peptides, with the order of potency NDP-MSH > alpha-MSH = ACTH > beta-MSH and with no effect of gamma-MSH, delta-MSH or beta-endorphin. The expressed receptor was demonstrated to be functionally coupled to the
adenylate cyclase
second messenger pathway, with alpha-MSH, beta-MSH and ACTH stimulating cyclic AMP production. The amount of the mRNA for this receptor was found to be very low. The tissue distribution of this receptor could only be observed using the reverse transcription-PCR technique and the receptor was found to be present in a number of somatic tissues. These data indicate that this is a new and distinct member of the melanocortin receptor family.
...
PMID:Cloning and expression of a new member of the melanocyte-stimulating hormone receptor family. 806 Apr 85
Many of the pharmacological effects of Delta(9)-tetrahydrocannabinol are mediated through CB(1) and CB(2) cannabinoid receptors. However, with the discovery of endogenous cannabinoids, some discrepancies have arisen. Furthermore, unlike the CB(1) receptor, the sequences of the mouse and human CB(2) receptor are divergent, raising the possibility of species specificity. The gene for the rat CB(2) receptor was cloned, expressed, and its properties compared with those of mouse and human CB(2) receptors. Sequence analysis of the coding region of the rat CB(2)
genomic clone
indicates 90% nucleic acid identity (93% amino acid identity) between rat and mouse and 81% nucleic acid identity (81% amino acid identity) between rat and human. The rat CB(2) receptor was stably expressed in human embryonic kidney-293 cells to examine its pharmacology. The rat CB(2) showed low affinity for anandamide, an endogenous ligand shown to act at the CB(1) receptor. In contrast, high-affinity binding for SR144528 (CB(2)-selective antagonist) as well as several cannabinoid receptor agonists was observed. Coupling to
adenylate cyclase
was observed. Aspects of the pharmacology of palmitoylethanolamide were also examined. It bound to CB(1) and CB(2) receptors with low affinity and stimulated GTPgammaS binding in the cerebellum and CB(2)-expressing cell lines with low potency. The data in this study suggest that the discrepancies in affinities between rat and human may represent species differences. The rat CB(2) receptor
genomic clone
will be a useful tool for studying the function and regulation of CB(2) in rats.
...
PMID:Cloning and pharmacological characterization of the rat CB(2) cannabinoid receptor. 1068 1
