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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)

1. Inhibitory junction potentials (IJPs) and relaxations evoked in response to field stimulation (supramaximal voltage, 0.1 ms, single stimulus and 5 stimuli at 5-40 Hz) of non-adrenergic non-cholinergic (NANC) nerves with atropine and phentolamine (each 1 microM) were measured in the guinea-pig internal anal sphincter (gpIAS). The mean resting membrane potential was -44.2 +/- 0.2 mV (n = 1119 cells from 260 preparations). 2. NANC nerve stimulation evoked frequency-dependent IJPs (19.7 +/- 1.1 mV, n = 165, 33 tissues to a single stimulus) and relaxations. IJPs consisted of two tetrodotoxin (1 microM)-sensitive components: one was abolished by apamin (0.3 microM) and the P2-purinoceptor antagonist suramin (100 microM); the other, smaller in amplitude, was sensitive to inhibitors of nitric oxide synthase (NOS, e.g. L-NAME, 100 microM) and the nitric oxide (NO) scavenger oxyhaemoglobin (HbO, 10 microM). 3. ATP (1 mM), vasoactive intestinal polypeptide (VIP, 0.01-0.25 microM) and pituitary adenylate cyclase-activating peptide (PACAP(1-27), 0.84 microM) each hyperpolarized and relaxed the gpIAS; only ATP responses resembled the evoked IJPs in time course. 4. The guanylyl cyclase inhibitor LY83583 (10 microM) abolished apamin-insensitive IJPs and relaxations. The cGMP phosphodiesterase inhibitor M&B 22948 (30 microM) and 8-Br-cGMP (100 microM) each hyperpolarized the gpIAS. 5. Two components comprise the IJP and relaxation evoked in response to NANC nerve stimulation in the gpIAS. One, sensitive to apamin, resembles the response to ATP and is modulated by purinoceptor antagonists; the other, apamin and suramin insensitive, is inhibited by NO antagonists.
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PMID:Neuronal mediators of inhibitory junction potentials and relaxation in the guinea-pig internal anal sphincter. 878 13

1. The first glimpses of heterotrimeric G-proteins came with the discoveries of the ubiquitous adenylate cyclase activator, Gs, and the specialized retinal cGMP phosphodiesterase activator, Gi or transducin. The model that evolved for regulation of adenylate cyclase activity by G-proteins soon proved to be a general paradigm for a large number of signalling pathways. Although many different G-proteins interact with a diverse array of receptors and effectors, each is composed of a guaninenucleotide-binding alpha-subunit and a tightly associated complex of a beta- and a gamma-subunit. 2. Receptors catalyse the activation of G-proteins by promoting exchange of GDP for GTP, while G-proteins catalyse their own deactivation as a result of their intrinsic GTPase activity. Crystallographic analysis has described several of the various conformational states that G-proteins undergo as they are activated and deactivated and has provided great insight into the kinetic models of G-protein-mediated signal transduction. 3. The regulation of adenylate cyclase has proven to be intriguing and complex. Gsx activates all forms of mammalian adenylate cyclase; other G-proteins (Gi, Go and Gz) inhibit certain isoforms of the enzyme. The discovery of new isoforms of adenylate cyclase has revealed synergistic and conditional mechanisms of regulation. These include activation or inhibition by the G-protein beta gamma-subunit complex, activation by Ca(2+)-calmodulin, and phosphorylation by protein kinases. The large number of receptors, G-proteins and adenylate cyclases provides a complex signalling network that integrates and interprets a multitude of convergent inputs.
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PMID:Visualizing signal transduction: receptors, G-proteins, and adenylate cyclases. 894 91

Adenylate cyclase genes, designated cyaA, cyaB1, cyaB2, cyaC, and cyaD, were isolated from the filamentous cyanobacterium Anabaena sp. strain PCC 7120 by complementation of a strain of Escherichia coli defective for the presence of cya. These genes encoded polypeptides consisting of 735, 859, 860, 1,155, and 546 amino acid residues, respectively. Deduced amino acid sequences of the regions near the C-terminal ends of these cya genes were similar to those of catalytic domains of eukaryotic adenylate cyclases. The remaining part of each cya gene towards its N-terminal end showed a characteristic structure. CyaA had two putative membrane-spanning regions. Both CyaB1 and CyaB2 had regions that were very similar to the cyclic GMP (cGMP)-binding domain of cGMP-stimulated cGMP phosphodiesterase. CyaC consisted of four distinct domains forming sequentially from the N terminus: a response regulator-like domain, a histidine kinase-like domain, a response regulator-like domain, and the catalytic domain of adenylate cyclase. CyaD contained the forkhead-associated domain in its N-terminal region. Expression of these genes was examined by reverse transcription-PCR. The transcript of cyaC was shown to be predominant in this cyanobacterium. The cellular cyclic AMP level in the disruptant of the cyaC mutant was much lower than that in the wild type.
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PMID:Isolation and characterization of multiple adenylate cyclase genes from the cyanobacterium Anabaena sp. strain PCC 7120. 917 4

In chick pineal cell culture, stimulation of adenylate cyclase with the diterpene forskolin was greater during the subjective night than during the subjective day. This rhythm of cyclic AMP (cAMP) stimulation mimicked the rhythm of unstimulated cAMP measured previously during LD cycles from flow-through culture. Direct measurement of adenylate cyclase activity in permeabilized cells revealed an adenylate cyclase activity activated by Ca2+/calmodulin during the night but not during the day. However, this difference in adenylate cyclase activity at two times of the circadian cycle is apparent only when permeabilized cells were prewashed with buffer containing GTE When cAMP was measured from flow-through cultures maintained in continuous darkness to determine whether a circadian clock may regulate cAMP, a low-amplitude rhythm was measured. The circadian rhythm of cAMP was similar to the cAMP rhythm previously measured on LD cycles except that the rhythm in darkness had a lower amplitude. Similar to the suppression of melatonin, cAMP was suppressed by light presented during the middle of the night. LD differences in nocturnal cAMP levels were abolished with dipyridamole, an inhibitor of cyclic GMP (cGMP) phosphodiesterase. These results suggest that the rhythm of cAMP in chick pineal cells involves the stimulation of adenylate cyclase by Ca2+/calmodulin during the night and a GTP-dependent suppression of adenylate cyclase activity during the day. The photic suppression of cAMP at night involves the activation of a dipyridamole-sensitive, cGMP phosphodiesterase.
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PMID:Day/night differences in the stimulation of adenylate cyclase activity by calcium/calmodulin in chick pineal cell cultures: evidence for circadian regulation of cyclic AMP. 985 9

The mechanism by which purinergic agonist adenosine triphosphate (ATP) and uridine triphosphate (UTP) decrease systemic arterial pressure in the anesthetized mouse was investigated. Intravenous injections of adenosine triphosphate (ATP) and uridine triphosphate (UTP) produced dose-dependent decreases in systemic blood pressure in the mouse. The order of potency was ATP > UTP. Vasodilator responses to ATP and UTP were altered by the cyclic adenosine monophosphate (cAMP) phosphodiesterase inhibitor rolipram. The vascular responses to ATP and UTP were not altered by a nitric oxide synthase inhibitor, a cyclooxygenase inhibitor, a cGMP phosphodiesterase inhibitor, or a particular P2 receptor antagonist. These data suggest that ATP and UTP cause a decrease in systemic arterial pressure in the mouse via a cAMP-dependent pathway via a novel P2 receptor linked to adenylate cyclase and that nitric oxide release, prostaglandin synthesis, cGMP, and P2X1, P2Y1, and P2Y4 receptors play little or no role in the vascular effects of these purinergic agonists in the mouse.
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PMID:Cyclic adenosine monophosphate-dependent vascular responses to purinergic agonists adenosine triphosphate and uridine triphosphate in the anesthetized mouse. 1174 36

Atrial natriuretic peptide (ANP) as well as its receptors is found in mammalian ovary and follicular cells and its function in oocyte meiotic maturation has also been reported in Xenopus, hamster and rat. But the results are controversial and the physiological mechanism of ANP on oocyte maturation is not clear, especially the relationship between gonadotrophin and ANP as well as the signal transduction, and these need further study. The present study conducted experiments to examine these questions by using drug treatment and Western blot analysis and focused on pig oocyte meiotic maturation and cumulus expansion in vitro. The results revealed that ANP could inhibited FSH-induced pig oocyte maturation and cumulus expansion and prevent the full phosphorylation of mitogen-activated protein kinase in both oocytes and cumulus cells, and that these inhibitory effects could be mimicked by 8-Br-cyclic guanosine 5'-monophosphate (8-Br-cGMP), but blocked by a protein kinase G (PKG) inhibitor KT5823. Zaprinast, a cGMP-specific phosphodiesterase inhibitor, could enhance the inhibitory effect of ANP on oocyte maturation. A specific analogue of ANP, C-ANP-(4-23), which binds to the natriuretic peptide receptor-C (NPRC), had no effect in either FSH-induced or spontaneous oocyte maturation. Treatment with forskolin, a stimulator of adenylate cyclase, had a biphasic effect; 44 h treatment induced cumulus expansion but inhibited oocyte maturation while 2 h treatment induced maturation of cumulus-enclosed oocytes (CEOs). Both ANP and C-ANP-(4-23) could inhibit the effect of forskolin on CEO maturation, and these inhibitory effects of ANP/C-ANP-(4-23) could be blocked by preincubation with pertussis toxin (PT), consistent with mediation by a Gi protein(s) in the cumulus cells. All these results suggest that ANP is a multifunctional regulator of FSH and forskolin on pig CEO maturation by two signalling mechanisms: one is via a cGMP/PKG pathway, the other is via NPRC receptors in cumulus cells and the activation of the PT-sensitive Gi protein(s).
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PMID:Atrial natriuretic peptide inhibits the actions of FSH and forskolin in meiotic maturation of pig oocytes via different signalling pathways. 1582 Nov 10

Phys (phytochromes) are a superfamily of photochromic photoreceptors that employ a bilin-type chromophore to sense red and far-red light. Although originally thought to be restricted to plants, accumulating genetic and genomic analyses now indicate that they are also prevalent among micro-organisms. By a combination of phylogenetic and biochemical studies, we have expanded the Phy superfamily and organized its members into distinct functional clades which include the phys (plant Phys), BphPs (bacteriophytochromes), Cphs (cyanobacterial Phys), Fphs (fungal Phys) and a collection of Phy-like sequences. All contain a signature GAF (cGMP phosphodiesterase/adenylate cyclase/FhlA) domain, which houses the bilin lyase activity. A PHY domain (uppercase letters are used to denote the PHY domain specifically), which helps stabilize the Pfr form (far-red-light-absorbing form of Phy), is downstream of the GAF region in all but the Phy-like sequences. The phy, Cph, BphP and Fph families also include a PLD [N-terminal PAS (Per/Arnt/Sim)-like domain] upstream of the GAF domain. Site-directed mutagenesis of conserved residues within the GAF and PLD motifs supports their importance in chromophore binding and/or spectral activity. In agreement with Lamparter, Carrascal, Michael, Martinez, Rottwinkel and Abian [(2004) Biochemistry 43, 3659-3669], a conserved cysteine within the PLD of several BphPs was found to be necessary for binding the chromophore via the C-3 vinyl side chain on the bilin A ring. Phy-type sequences were also discovered in the actinobacterium Kineococcus radiotolerans and collections of microorganisms obtained from marine and extremely acidic environments, thus expanding further the range of these photoreceptors. Based on their organization and distribution, the evolution of the Phy superfamily into distinct photoreceptor types is proposed.
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PMID:Phylogenetic analysis of the phytochrome superfamily reveals distinct microbial subfamilies of photoreceptors. 1600 4

Phytochromes are red/far red light photochromic photoreceptors that direct many photosensory behaviors in the bacterial, fungal, and plant kingdoms. They consist of an N-terminal domain that covalently binds a bilin chromophore and a C-terminal region that transmits the light signal, often through a histidine kinase relay. Using x-ray crystallography, we recently solved the first three-dimensional structure of a phytochrome, using the chromophore-binding domain of Deinococcus radiodurans bacterial phytochrome assembled with its chromophore, biliverdin IXalpha. Now, by engineering the crystallization interface, we have achieved a significantly higher resolution model. This 1.45A resolution structure helps identify an extensive buried surface between crystal symmetry mates that may promote dimerization in vivo. It also reveals that upon ligation of the C3(2) carbon of biliverdin to Cys(24), the chromophore A-ring assumes a chiral center at C2, thus becoming 2(R),3(E)-phytochromobilin, a chemistry more similar to that proposed for the attached chromophores of cyanobacterial and plant phytochromes than previously appreciated. The evolution of bacterial phytochromes to those found in cyanobacteria and higher plants must have involved greater fitness using more reduced bilins, such as phycocyanobilin, combined with a switch of the attachment site from a cysteine near the N terminus to one conserved within the cGMP phosphodiesterase/adenyl cyclase/FhlA domain. From analysis of site-directed mutants in the D. radiodurans phytochrome, we show that this bilin preference was partially driven by the change in binding site, which ultimately may have helped photosynthetic organisms optimize shade detection. Collectively, these three-dimensional structural results better clarify bilin/protein interactions and help explain how higher plant phytochromes evolved from prokaryotic progenitors.
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PMID:High resolution structure of Deinococcus bacteriophytochrome yields new insights into phytochrome architecture and evolution. 1732 1

The NorR regulatory protein senses nitric oxide (NO) to activate genes required for NO detoxification under anaerobic and microaerobic conditions in Escherichia coli. NorR belongs to the sigma(54)-dependent family of transcriptional activators and contains an N-terminal regulatory GAF (cGMP phosphodiesterase, adenylate cyclase, FhlA) domain that controls the ATPase activity of the central AAA+ domain to regulate productive interactions with sigma(54). Binding of NO to a non-heme iron center in the GAF domain results in the formation of a mononitrosyl-iron complex and releases intramolecular repression of the AAA+ domain to enable activation of transcription. In this study, we have further characterized NorR spectroscopically and substituted conserved residues in the GAF domain. This analysis, in combination with structural modeling of the GAF domain, has identified five candidate ligands to the non-heme iron and suggests a model in which the metal ion is coordinated in a pseudo-octahedral environment by three aspartate residues, an arginine, and a cysteine.
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PMID:Analysis of the nitric oxide-sensing non-heme iron center in the NorR regulatory protein. 1800 17

Photointerconversion between the red light-absorbing (Pr) form and the far-red light-absorbing (Pfr) form is the central feature that allows members of the phytochrome (Phy) superfamily to act as reversible switches in light perception. Whereas the chromophore structure and surrounding binding pocket of Pr have been described, those for Pfr have remained enigmatic for various technical reasons. Here we describe a novel pair of Phys from two thermophilic cyanobacteria, Synechococcus sp. OS-A and OS-B', that overcome several of these limitations. Like other cyanobacterial Phys, SyA-Cph1 and SyB-Cph1 covalently bind the bilin phycocyanobilin via their cGMP phosphodiesterase/adenyl cyclase/FhlA (GAF) domains and then assume the photointerconvertible Pr and Pfr states with absorption maxima at 630 and 704 nm, respectively. However, they are naturally missing the N-terminal Per/Arndt/Sim domain common to others in the Phy superfamily. Importantly, truncations containing only the GAF domain are monomeric, photochromic, and remarkably thermostable. Resonance Raman and NMR spectroscopy show that all four pyrrole ring nitrogens of phycocyanobilin are protonated both as Pr and following red light irradiation, indicating that the GAF domain by itself can complete the Pr to Pfr photocycle. (1)H-(15)N two-dimensional NMR spectra of isotopically labeled preparations of the SyB-Cph1 GAF domain revealed that a number of amino acids change their environment during photoconversion of Pr to Pfr, which can be reversed by subsequent photoconversion back to Pr. Through three-dimensional NMR spectroscopy before and after light photoexcitation, it should now be possible to define the movements of the chromophore and binding pocket during photoconversion. We also generated a series of strongly red fluorescent derivatives of SyB-Cph1, which based on their small size and thermostability may be useful as cell biological reporters.
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PMID:Characterization of two thermostable cyanobacterial phytochromes reveals global movements in the chromophore-binding domain during photoconversion. 1848 55


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