Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vertebrate photoreceptors can adjust their sensitivity to a wide range of light intensities spanning several orders of magnitude, the phenomenon of which is called light adaptation. Electrophysiological and biochemical studies have revealed that calcium can serve as an intracellular transmitter of light adaptation under the control of cGMP metabolism. After illumination, the cytoplasmic calcium concentration of a photoreceptor decreases, which in turn strongly activates photoreceptor guanylate cyclase. This calcium-dependent effect is mediated by a novel calcium-binding protein (recoverin) and leads to the restoration of the depleted cGMP pool after illumination.
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PMID:Biochemical mechanism of light adaptation in vertebrate photoreceptors. 135 92

Photoreceptor guanylyl cyclase activity is modulated by an endogenous calcium-binding protein called recoverin. A modified isolation procedure for recoverin using gel-filtration chromatography instead of a heat denaturation step is presented. The elution volume of recoverin corresponds to a monomer. Recoverin exhibits a calcium-dependent mobility shift in a native gel electrophoresis. Isoelectric focusing revealed a pI of 5.25. No subspecies of recoverin were detected.
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PMID:Recoverin, a novel calcium-binding protein from vertebrate photoreceptors. 135 6

Using a selective cloning approach we previously isolated a number of cDNAs of transcripts that are newly expressed during terminal differentiation of the chicken optic tectum. Here, we have characterized one of these cDNAs (OZ1) by Northern analysis and in situ hybridization. The OZ1 cDNA hybridizes to two transcripts of 1.6 kb and 2.9 kb which are widely expressed in the brain but not detectable in liver, heart or skeletal muscle. Cloning of overlapping cDNAs revealed that both transcripts encode the same open reading frame for a polypeptide of 191 amino acids. The deduced protein contains 4 EF-hand consensus motifs characteristic of calmodulin-like Ca(2+)-binding proteins. It displays 40% and 46% sequence identity with the retinal photoreceptor-specific Ca(2+)-binding proteins visinin and recoverin, respectively, and was termed VILIP (visinin-like protein). VILIP transcripts are also expressed in the retina. However, the expression pattern does not overlap with that of visinin or recoverin. The possible functional implications of the similarity to recoverin, which regulates guanylate cyclase activity of retinal rod cells in a Ca(2+)-dependent manner, are discussed.
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PMID:VILIP, a cognate protein of the retinal calcium binding proteins visinin and recoverin, is expressed in the developing chicken brain. 135 72

Recoverin, a recently discovered 23-kDa calcium-binding protein, activates retinal rod guanylate cyclase when the calcium level is lowered in the submicromolar range. We report here the cloning and sequencing of a cDNA for recoverin from a bovine retinal expression library. The recoverin coding sequence was inserted into a pET-11a expression vector under control of the T7 phage promoter. A second expression system, in which the coding sequence was placed under control of the lambda phage PR promoter, gave 10-fold higher yields (10 mg of purified recoverin per liter of Escherichia coli culture). The finding that retinal recoverin is myristoylated at its amino terminus led us to coexpress the recombinant protein and N-myristoyltransferase (EC 2.3.1.97). Myristoylated recombinant recoverin formed in this way in E. coli is like retinal recoverin in exhibiting a large calcium-induced shift in its tryptophan fluorescence emission spectrum. The availability of abundant protein enabled us to crystallize unmyristoylated recombinant recoverin and initiate x-ray studies. The space group of tetragonal crystals obtained from 75% saturation ammonium sulfate is I4 with unit cell dimensions a = 85.1 A and c = 59.8 A. These crystals of the calcium-bound form of the protein diffracted to a resolution of 2.2 A. The expression systems described here open the door to high-resolution x-ray crystallographic and nuclear magnetic resonance studies of this new member of the EF-hand superfamily and to the elucidation of its precise mode of action as a calcium switch.
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PMID:Cloning, expression, and crystallization of recoverin, a calcium sensor in vision. 138 64

The 23 kDa protein was localized by immunocytochemistry to photoreceptor cells of the mouse retina, and bovine and mouse cDNA clones were isolated and sequenced. The deduced amino acid sequences showed that the mouse 23 kDa protein is 91% identical to the bovine protein, and is the same as S-modulin, the CAR (cancer-associated retinopathy) protein and recoverin, the Ca(2+)-dependent activator of photoreceptor guanylate cyclase. The amino acid sequence reveals two Ca2+ binding sites, no internal repeats, 59% homology to the chicken visinin protein and 40% homology to calmodulin while Northern analysis demonstrated a single 1.0 kb mRNA species in bovine and mouse retina.
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PMID:Cloning and sequencing of the 23 kDa mouse photoreceptor cell-specific protein. 138 25

Recoverin is a recently identified Ca(2+)-binding protein that imparts Ca2+ sensitivity to vertebrate photoreceptor guanylate cyclase. In response to photo-induced depletion of intracellular cGMP and Ca2+, recoverin stimulates resynthesis of cGMP. Bovine retinal recoverin has now been analyzed by electrospray mass spectrometry (ESI-MS) for post-translational modifications that might influence its activity. Heterogeneous acylation was detected at the NH2 terminus of bovine retinal recoverin. The NH2-terminal glycine of each retinal recoverin molecule is linked to one of four different types of acyl groups. The most abundant is myristoleate (14:1), but 14:0, 14:2, and 12:0 acyl residues are also present.
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PMID:The NH2 terminus of retinal recoverin is acylated by a small family of fatty acids. 138 1

Transduction of a visual signal is a complex process. It involves photochemical, enzymatic and ionic reactions. An electrophysiological response is generated on absorption of a photon by a photoreceptor cell's pigment molecule, then propagates to the synapses. The first photochemical reaction, isomerization of retinal, in vertebrates occurs in the photoreceptor cells--rods and cones--of the retina, so changes conformation and activity of a pigment-bound protein, rhodopsin, in membranes of intracellular discs. Rhodopsin becomes enzymatically active and catalyses the activation by GTP of a great number of transducins, which in turn activate cGMP phosphodiesterase. This enzymatic chain propagates and greatly enhances hydrolysis of cytoplasmic cGMP. One photon incites hydrolysis of 10(5) cGMP molecules in 100 ms. Local cGMP decrease frees it from specific binding sites in cytoplasm occupied by proteinaceous canals in cell membrane around the activated disc. In darkness high cGMP concentration, hence binding, kept canals open, maintaining high cellular cation permeability, especially to Na+, and a strong cellular depolarization. Ca2+ influx, also allowed, balanced Na+ movement. Canal closure induces local hyperpolarization, the first electrophysiological response, which propagates through the cell to synaptic contacts. It also lowers intracellular Ca2+ concentration which initiates cGMP synthesis--from GTP by a guanylate cyclase controlled negatively by recoverin, a calcium-dependent protein--to restore cGMP towards at rest level. Although all macromolecules involved in this now fairly complete scheme have been isolated and characterized, cloned and sequenced, no three-dimensional structure has yet been established. The proteins are membrane-bound rather than in independent crystal form, which renders such structural studies difficult.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Transduction of the visual signal in retinal cells]. 142 99

Recoverin is a recently discovered 26 kDa calcium-binding protein, which activates guanylate cyclase in retinal photoreceptors when the intracellular concentration of free calcium drops upon photoexcitation. In this study we examined the distribution of recoverin in retinae and pineal organs of Xenopus laevis larvae, 1-day-old chicken, adult pigeon, albino rat, sheep and man by means of immunocytochemistry. Recoverin immunoreaction was found in all species investigated except for the chicken. In the retina, recoverin immunoreaction was restricted to photoreceptors; all other cell types were immunonegative. In the pineal organ, the recoverin immunoreaction labeled 'pinealocytes of the sensory line', i.e. classical pineal photoreceptors of Xenopus laevis larvae, modified pineal photoreceptors of pigeon, and pinealocytes of mammals. The number of recoverin immunoreactive pinealocytes varied considerably among species of mammals: very few cells were stained in the rat pineal organ, whereas in rabbit, sheep and man, numerous pinealocytes were found to be recoverin-immunoreactive. No immunocytochemical staining was observed after preabsorption of the recoverin antibody with the recombinant protein. Immunoblotting experiments showed that the immunoreaction is due to a protein of 26 kDa in both retina and pineal tissue. Thus, recoverin appears to belong to the family of proteins which are expressed in both retina and pineal organ and are highly conserved in the course of phylogeny. Recoverin may be involved in phototransduction in the directly light-sensitive pineal organs of poikilothermic vertebrates and birds. However, the functional role of recoverin in the mammalian pineal organ, which is not photosensitive, remains unknown.
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PMID:Recoverin in pineal organs and retinae of various vertebrate species including man. 146 59

Vertebrate retinal photoreceptors recover from photoexcitation-induced hydrolysis of guanosine 3', 5'-monophosphate (cyclic GMP) by resynthesizing cyclic GMP, which reopens cation channels that have been closed by light. Activation of guanylate cyclase by light-induced depletion of cytosolic calcium is a key event in this recovery process. This cyclase has now been shown to be regulated by a 23-kilodalton calcium binding protein. The protein is present in both rod and cone photoreceptors and was named recoverin because it promotes recovery of the dark state. The amino acid sequence of recoverin exhibits three potential calcium binding sites (EF hands). That recoverin binds calcium was confirmed with calcium-45 and by observing calcium-induced changes in its tryptophan fluorescence. Recoverin activated guanylate cyclase when free calcium was lowered from 450 to 40 nM, an effect that was blocked by an antibody to recoverin. Thus, guanylate cyclase in retinal rods is stimulated during recovery by the calcium-free form of recoverin. A comparison of recoverin with other calcium binding proteins reveals that it may represent, along with the protein visinin, a family of proteins that are regulated by submicromolar calcium concentrations.
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PMID:Recoverin: a calcium sensitive activator of retinal rod guanylate cyclase. 809 96

Recoverin, a new calcium binding protein from bovine rod photoreceptor cells, activates guanylyl cyclase below a free calcium concentration of 200 nM. We show here that recoverin is phosphorylated by an endogenous kinase and Mg-ATP at the same decreased calcium concentration. The calcium-dependent activation of guanylyl cyclase is enhanced in the presence of ATP. We suggest that phosphorylation of recoverin reinforces the stimulation of guanylyl cyclase at decreased calcium concentrations.
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PMID:Phosphorylation of recoverin, the calcium-sensitive activator of photoreceptor guanylyl cyclase. 168 52


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