EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclic guanosine 3',5'-monophosphate phosphodiesterase in crude extracts from bovine rod outer segments can be activated by the addition of bleached rod outer segment membranes and GTP. In the absence of rhodopsin-containing membranes, the phosphodiesterase specific activity decreases with increasing concentration. A trypsin-sensitive inhibitor believed to be responsible for this phenomenon can be separated from the phosphodiesterase by DEAE-cellulose chromatography of the crude extract. Phosphodiesterase eluted from the DEAE-cellulose column shows considerably less concentration-dependence than in the crude extract. This partially purified phosphodiesterase was used as the substrate to assay for inhibitor. A GTPase which is active only in the presence of bleached rod outer segment membranes coelutes with the phosphodiesterase and is distinct from the phosphodiesterase inhibitor we have isolated.
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PMID:Isolation of an inhibitory protein for the cyclic guanosine 3','5'-monophosphate phosphodiesterase of bovine rod outer segments. 611 78

We describe a reconstitution of light-activated vertebrate photoreceptor GTPase and a purification of the GTP-binding protein (G protein), which is a component of the GTPase and modulates the light-activated phosphodiesterase (PDE) enzyme system. Rod outer segments (ROS) of bull frogs were treated with ethylenediaminetetraacetic acid (EDTA), and the GTPase and PDE fractions were solubilized (EDTA supernatant). When the EDTA supernatant and EDTA-treated membrane fraction (EDTA-washed membranes) were recombined, light-dependent GTPase activity appeared. In the reconstituted system, the Km for GTP as substrate was 0.5 microM; the optimum pH was 7.5-8.0. The isoelectric point of GTPase in EDTA supernatant was 4.8. G protein was purified 400-fold from ROS, and the molecular weight of G protein was determined to be 40 000 by polyacrylamide gel electrophoresis. The amount of G protein in ROS was calculated as at least 1 molecule per 400 rhodopsin molecules. By recombining (in the presence or absence of GTP) purified G protein, PDE, H fraction (an additional component of GTPase), and illuminated or unilluminated EDTA-washed membranes (as a source of rhodopsin), we showed that illuminated rhodopsin, G protein, PDE, and GTP are the minimum requirements for light-dependent PDE activity. We discuss the significance of these findings in the regulation of the light-activated GTPase and PDE activities, especially with regard to the mechanism of activation.
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PMID:Purification and characteristics of photoreceptor light-activated guanosinetriphosphatase. 611 10

Levels of cGMP phosphodiesterase, guanylate cyclase, and GTPase activities were determined in homogenates of chick pineal glands. Only small variations in vivo were observed with glands removed at different times of the day from birds under a standard cycle of illumination. Glands cultured under the cycle of illumination from late in the photoperiod showed a progressive loss of about half the phosphodiesterase activity in 24 h, and an increase of roughly 75% in GTPase activity within 12 h. No simple correlations were found between variations in levels of enzyme activity and the diurnal cycles in pineal content of cGMP and level of serotonin N-acetyltransferase (NAT) activity. However, onset of rapid increases in 3',5'-cyclic GMP (cGMP) content and NAT activity was correlated with a transient decrease of about 30% in the phosphodiesterase activity, both in vivo and in culture. Further, known inhibitors of phosphodiesterase activity previously shown to elicit increase of cGMP content and marked elevation of NAT activity in cultured glands only inhibited phosphodiesterase activity of homogenates by 25-30%. It was therefore concluded that the transient decrease in level of phosphodiesterase may facilitate onset of increase in pineal cGMP content. However, it seems improbable that changes in pineal content of enzymes of guanine nucleotide metabolism are essential to regulation of diurnal cycles in cGMP content or level of NAT activity.
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PMID:Enzymes of guanine nucleotide metabolism and the diurnal cycle in cGMP content of the chick pineal gland. 613 5

Transducin, a guanine nucleotide regulatory protein found in the bovine retinal rod outer segment, mediates the signal coupling between rhodopsin and a cyclic GMP phosphodiesterase. Previous studies have demonstrated that photolyzed rhodopsin catalyzed the exchange of GTP for GDP bound to transducin. The transducin-GTP complex, in turn, activates the phosphodiesterase. Purified transducin (T) has been resolved by omega-amino octylagarose chromatography into two functional subunits: T alpha (Mr approximately 39,000) and T beta gamma (Mr approximately 36,000 and approximately 10,000). The guanine nucleotide binding site is on the T alpha subunit. Neither the T alpha nor the T beta gamma subunit showed significant GTPase activity, Gpp(NH)p-GDP exchange, and ability to bind to rhodopsin when assayed in the presence of reconstituted membranes containing photolyzed rhodopsin. However, all the above activities were restored if the two subunits were recombined. Analysis of the reconstituted GTPase activity as a function of the T alpha subunit concentration revealed a linear relationship. On the other hand, GTPase activity rapidly saturated at T beta gamma concentration much lower than the T alpha concentration, indicating that the two subunits were dissociated during GTP hydrolysis. These findings strongly suggest that the T beta gamma subunit is an activator of the GTPase activity. Its mode of action is to enable the T alpha subunit to interact with rhodopsin effectively.
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PMID:Characterization of transducin from bovine retinal rod outer segments. I. Separation and reconstitution of the subunits. 613 9

The first stage of amplification in the cyclic GMP cascade in bovine retinal rod is carried out by transducin, a guanine nucleotide regulatory protein consisting of two functional subunits, T alpha (Mr approximately 39,000) and T beta gamma (Mr approximately 36,000 and approximately 10,000). Limited trypsin digestion of the T beta gamma subunit converted the beta polypeptide to two stable fragments (Mr approximately 26,000 and approximately 14,000). The GTPase and Gpp(NH)p binding activities were not significantly affected by the cleavage. Trypsin digestion of the T alpha subunit initially removed a small segment from the polypeptide terminus and resulted in the formation of a single 38,000-Da fragment. When this fragment was recombined with the intact T beta gamma subunit in the presence of membranes containing photolyzed rhodopsin, the reconstituted transducin exhibited greatly reduced GTPase and Gpp(NH)p binding activities. The loss in activities was due to the inability of the cleaved T alpha to bind to the photolyzed rhodopsin. Prolonged digestion converted the 38,000-Da fragment to a transient 32,000-Da fragment and then to two stable 23,000-Da and 12,000-Da fragments. The cleavage of the 32,000-Da fragment, however, can be blocked by bound Gpp(NH)p. The 32,000-Da fragment contains the Gpp(NH)p binding site and retains the ability to activate phosphodiesterase. These results indicate that the guanine nucleotide binding and rhodopsin binding sites are located in topologically distinct regions of the T alpha subunit and proved evidence that a large conformational transition of the molecule occurs upon the conversion of the bound GDP to GTP.
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PMID:Characterization of transducin from bovine retinal rod outer segments. II. Evidence for distinct binding sites and conformational changes revealed by limited proteolysis with trypsin. 613 10

Cholera toxin and pertussis toxin catalyze ADP-ribosylation of the alpha-subunits of the GTP-binding stimulatory (Ns) and inhibitory (Ni) coupling components, respectively, of adenylate cyclase. Cholera toxin also catalyzes the ADP-ribosylation of transducin, the GTP-binding signal-coupling protein of retinal rod outer segments, and thereby reduces its light-stimulated GTPase activity. We show here that pertussis toxin also ADP-ribosylates transducin. Illumination markedly inhibits the ADP-ribosylation of transducin by pertussis toxin. ADP-ribosylation by this toxin in the dark is also lessened by prior incubation with hydrolysis-resistant GTP analogs. These inhibitory effects indicate that the GDP complex of transducin is the preferred form for ADP-ribosylation by pertussis toxin. Transducin modified by this toxin has a lower affinity for photoexcited rhodopsin than does unmodified transducin. ADP-ribosylation inhibits the light-stimulated GTPase activity of rod outer segments and blocks the signal-coupling activity of transducin in photoactivation of the phosphodiesterase. These and previous results show that cholera and pertussis toxins preferentially ADP-ribosylate the active (GTP-binding) and inactive (GDP-binding) conformations, respectively, of transducin. Correspondingly, ADP-ribosylation by these toxins inhibits GTPase activity by stabilizing transducin in the preferred active (GTP-binding) or inactive (GDP-binding) conformation. The actions of pertussis toxin on retinal rod outer segments provide further evidence for a high degree of homology between retinal transducin and the N proteins of the adenylate cyclase system.
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PMID:ADP-ribosylation of transducin by pertussis toxin blocks the light-stimulated hydrolysis of GTP and cGMP in retinal photoreceptors. 614 83

Photolyzed rhodopsin catalyzes the exchange of GTP for FDP bound to a protein in retinal rod outer segments. We previously proposed that the GTP complex of this protein regulates the cyclic GMP phosphodiesterase and that it may be the first amplified intermediate in visual excitation [Fung, B. K.-K. & Stryer, L. (1980) Proc. Natl. Acad. Sci. USA 77, 2500-2504]. We report here the identification and characterization of transducin, a regulatory protein consisting of three kinds of polypeptide chains: T alpha (39 kilodaltons), T beta (36 kilodaltons), and T gamma (approximately 10 kilodaltons). Reconstituted membranes containing transducin and rhodopsin but no phosphodiesterase exhibit GTPase activity and amplified binding of guanosine 5'[beta, gamma-imido]triphosphate (p[NH]ppG), a nonhydrolyzable analog of GTP, on illumination. A single photolyzed rhodopsin molecule led to the uptake of p[NH]ppG by 71 molecules of transducin. High-pressure liquid chromatography showed that the binding site for GTP is on the alpha subunit of transducin. The isolation of the complex of ;[NH]ppG with T alpha enabled us to determine whether this species is the activator of the phosphodiesterase. We found that phosphodiesterase on unilluminated disc membranes can indeed be fully activated by addition of T alpha containing bound p[NH]ppG. These findings strongly suggest that transducin is the first amplified information-carrying intermediate in the cyclic nucleotide cascade of vision.
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PMID:Flow of information in the light-triggered cyclic nucleotide cascade of vision. 626 30

Rod outer segments (ROSs) of vertebrate photoreceptor cells have been reported to contain several enzyme systems including a dark, Ca2+-stimulated ATPase, a rhodopsin kinase, a phosphodiesterase and a GTPase, all of which are light-stimulated. Recently, Thacher has found a light-stimulated Mg2+-ATPase in frog ROSs while our own laboratory has identified a dark, Ca2+-inhibited Mg2+-ATPase in bovine ROSs. Here we extend our observations on the Mg2+-ATPase and demonstrate that flash illumination following the dark ATPase process stimulated ATPase activity at a rate considerably faster than the dark process. In addition, we find that both the dark and light stimulated ATPase activities are markedly enhanced by cyclic GMP and inhibited by Ca2+.
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PMID:Cyclic GMP stimulation of a light-activated ATPase in rod outer segments. 631 Apr 4

Our experiments have delineated the flow of information in the cyclic nucleotide cascade of vision of ROS. A single, photoexcited rhodopsin molecule activates several hundred phosphodiesterase molecules in two stages. First, photoexcited rhodopsin (R*) interacts with transducin (T), a peripheral membrane protein consisting of alpha- (39 kD), beta- (36 kD), and gamma- (approximately 10 kD) subunits. R* catalyzes the exchange of GTP for GDP bound to the subunit of transducin. About 500 T alpha- GTPs are produced per photoexcited rhodopsin at low light levels. T alpha-GTP, released from the beta- and gamma-subunits of transducin, then interacts with the phosphodiesterase to relieve the inhibitory constraint imposed by its gamma-subunit. Hydrolysis of GTP bound to T alpha serves to restore the system to the dark state. Transducin is the amplified signal carrier in this light-triggered cascade. The formation of hundreds of T alpha- GTPs is likely to be the first stage of amplification in visual excitation. The photoactivation of the phosphodiesterase in ROS closely resembles the activation of adenylate cyclase in hormone-sensitive cells. Our cholera toxin labeling studies have shown that transducin is akin to the signal-coupling G protein of the adenylate cyclase system. Cholera toxin specifically ADP- ribosylates and inactivates the GTPase activity of T alpha, just as it does with Gs. The action of pertussis toxin on ROS further underscores the homology of the photoreceptor and hormone-responsive systems. It seems likely that transducin, the stimulatory G protein, and the inhibitory G protein are members of the same family of signal-amplifying proteins. The study of the cyclic nucleotide cascade of vision is proving to be rewarding in affording a view of a recurring motif of signal amplification in nature in addition to providing insight into the mechanism of vision.
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PMID:Transducin and the cyclic GMP phosphodiesterase: amplifier proteins in vision. 632 79

The taste-specific G-protein alpha-subunit, alpha-gustducin, was expressed using a baculovirus based system. alpha-Gustducin was demonstrated to be myristoylated and was also palmitoylated in insect larval cells. Recombinant alpha-gustducin was purified to homogeneity. Neither receptors nor effectors that interact with gustducin in taste are known. However, alpha-gustducin has a close structural similarity to the visual G-protein, alpha-transducin. Therefore alpha-gustducin was reconstituted with components of the visual system to determine the degree of its functional similarity with alpha-transducin. Despite the fact that the sequences of alpha-gustducin and alpha-transducin share only 80% identity with each other, the interactions and functions of these two proteins were quantitatively identical. These included the interaction with receptor, bovine rhodopsin, with effector, bovine retinal cyclic GMP-phosphodiesterase, and with bovine brain and retinal G-protein beta gamma-heterodimers; receptor-catalysed GDP-GTP exchange and the intrinsic GTPase activity of alpha-gustducin and alpha-transducin were also identical. Gi alpha which is 70% identical with alpha-transducin interacts with different receptor and effector proteins and has very different guanine-nucleotide binding properties. Therefore, the functional equivalence of alpha-gustducin and alpha-transducin suggest that taste buds are likely to contain receptor and effector proteins that share many properties with their retinal equivalents.
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PMID:Functional expression of the taste specific G-protein, alpha-gustducin. 762 29

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