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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)

The stereochemistry of the guanyl nucleotide binding site of transducin from bovine retinal rod outer segments was probed with phosphorothioate analogues of GTP and GDP. Transducin has markedly different affinities for the five thio analogues of GTP, as measured by their effectiveness in inhibiting GTPase activity, competing with GTP for entry into transducin, and displacing GDP bound to transducin. The order of binding affinities is GTP gamma S = (Sp)-GTP alpha S greater than (Rp)-GTP alpha S greater than (Sp)-GTP beta S much greater than (Rp)-GTP beta S. The affinity of transducin for GTP gamma S is greater than 10(4) higher than that for (Rp)-GTP beta S. These five analogues have the same relative potencies in eliciting the release of transducin from the membrane and in activating the phosphodiesterase. Transducin hydrolyzes (Sp)-GTP alpha S with a l/e time of 55 s, compared with 28 s for GTP. In contrast, (Rp)-GTP alpha S, like GTP gamma S, is not hydrolyzed on the time scale of several hours. The order of effectiveness of thio analogues of GDP in displacing bound GDP is (Sp)-GDP alpha S greater than GDP greater than (Rp)-GDP alpha S greater than GDP beta S. The affinity of transducin for (Sp)-GDP alpha S is about 10-fold higher than that for GDP beta S. Mg2+ is required for the binding of GTP and GDP to transducin. Cd2+ does not lead to a reversal of stereospecificity at either the alpha- or beta-phosphorus atom of GTP. These results lead to the following conclusions: The pro-R oxygen atom at the alpha-phosphorus of GTP does not bind Mg2+ but instead interacts with the protein. The pro-S oxygen at the alpha-phosphorus does not appear to be involved in a critical interaction with transducin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stereochemistry of the guanyl nucleotide binding site of transducin probed by phosphorothioate analogues of GTP and GDP. 300 74

The diastereoisomers of adenosine 5'-O-phosphorothioate O-methyl ester have been synthesised. Only the Sp diastereoisomer is a substrate for the 5'-nucleotide phosphodiesterase from bovine intestinal mucosa. The previously unidentified enantiomer of 4-nitrophenyl phenyl phosphonothioate hydrolysed by the enzyme is shown to have the Sp configuration. Digestion of the Sp diastereoisomer of adenosine 5'-O-phosphorothioate O-methyl ester by the enzyme in 18O-labelled water gave 18O-labelled adenosine 5'-O-phosphorothioate which was stereochemically analysed by methylation and subsequent 31P-NMR spectroscopy and shown to possess the Sp configuration. Thus the enzyme-catalysed cleavage proceeded with retention of configuration at phosphorus, presumably via a double-displacement mechanism. This provides strong evidence for the existence of a nucleotidyl-enzyme intermediate on the reaction pathway.
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PMID:On the mechanism of action of bovine intestinal mucosa 5'-nucleotide phosphodiesterase. Stereochemical evidence for a nucleotidyl-enzyme intermediate. 302 84

The interaction of six hydrolysis-resistant analogues of GTP with transducin, the signal-coupling protein in vertebrate photoreceptors, was investigated. GppNHp and GppCH2p differ from GTP at the bridging position between the beta- and gamma-phosphate groups. The other analogues studied (GTP gamma F, GTP gamma OMe, GTP gamma OPh, and GTP gamma S) differ from GTP in containing a substituent on the gamma-phosphorus atom or at a nonbridging gamma-oxygen atom. Competition binding experiments were carried out by adding an analogue, [alpha-32P]GTP, and a catalytic amount of photoexcited rhodopsin (R) to transducin and measuring the amount of bound [gamma-32P]GTP. The order of effectiveness of these analogues in binding to transducin was GTP gamma S greater than GTP much greater than GppNHp greater than GTP gamma OPh greater than GTP gamma OMe greater than GppCH2p greater than GTP gamma F A second assay measured the effectiveness of GTP gamma S, GppNHp, and GppCH2p in eluting transducin from disc membranes containing R. The basis of this assay is that transducin is released from disc membranes when it is activated to the GTP form. The relative potency of these three analogues in converting transducin from a membrane-bound to a soluble form was 1000, 75, and 1, respectively. Stimulation of cGMP phosphodiesterase activity served as a third criterion of the interaction of these analogues with transducin. The order of effectiveness of these analogues in promoting the transducin-mediated activation of the phosphodiesterase was GTP gamma S greater than GTP much greater than GppNHp greater than GTP gamma OPh much greater than GppCH2p greater than GTP gamma OMe greater than GTP gamma F GTP gamma S was more than a 1000 times as potent as GTP gamma F in activating the phosphodiesterase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interaction of retinal transducin with guanosine triphosphate analogues: specificity of the gamma-phosphate binding region. 346 46

In order to resolve discrepancies in the literature concerning the subcellular localization of NADPH oxidase, we disrupted human neutrophils by nitrogen cavitation and fractionated the subcellular organelles on a discontinuous sucrose density gradient. The lightest fraction was 20- to 40-fold enriched for plasma membranes as determined by the marker enzymes alkaline phosphatase and phosphodiesterase I as well as by the ratio of lipid phosphorus to protein. There was a significant decrease in the specific activities of the granule markers myeloperoxidase, lysozyme, and beta-glucuronidase. An intermediate fraction was enriched in membrane markers but not to the extent the lightest fraction was enriched. This fraction contained more granular contamination, as shown by the marker enzymes. In contrast, the densest bands of the gradient were enriched for granule markers with little contamination by plasma membrane. Superoxide generation and NADP formation were primarily associated with the two membrane-enriched fractions from polymorphonuclear leukocytes stimulated with phorbol myristate acetate. The NADP formation associated with a dense granule fraction observed previously in our laboratory was probably due to a cyanide-stimulated oxidation of NADPH by myeloperoxidase.
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PMID:Co-localization of superoxide generation and NADP formation in plasma membrane fractions from human neutrophils. 609 76

(Sp)-2'-Deoxyadenosine 5'-O-[1-17O,1-18O,1,2-18O]triphosphate has been synthesized by desulfurization of (Sp)-2'-deoxyadenosine 5'-O-(1-thio[1,1-18O2]diphosphate) with N-bromosuccinimide in [17O]water, followed by phosphorylation with phosphoenolpyruvate-pyruvate kinase. A careful characterization of the product using high-resolution 31P NMR revealed that the desulfurization reaction proceeded with approximately 88% direct in-line attack at the alpha-phosphorus and 12% participation by the beta-phosphate to form a cyclic alpha,beta-diphosphate. The latter intermediate underwent hydrolysis by a predominant nucleophilic attack on the beta-phosphate. This complexity of the desulfurization reaction, however, does not affect the stereochemical integrity of the product but rather causes a minor dilution with nonchiral species. The usefulness of the (Sp)-2'-deoxyadenosine 5'-O-[1-17O,1-18O,1,2-18O]triphosphate in determining the stereochemical course of deoxyribonucleotidyl-transfer enzymes is demonstrated by using it to delineate the stereochemical course of the 3'----5'-exonuclease activity of DNA polymerase I. Upon incubation of this oxygen-chiral substrate with Klenow fragment of DNA polymerase I in the presence of poly[d(A-T)] and Mg2+, a quantitative conversion into 2'-deoxyadenosine 5'-O-[16O,17O,18O]monophosphate was observed. The stereochemistry of this product was determined to be Rp. Since the overall template-primer-dependent conversion of a deoxynucleoside triphosphate into the deoxynucleoside monophosphate involves incorporation into the polymer followed by excision by the 3'----5'-exonuclease activity and since the stereochemical course of the incorporation reaction is known to be inversion, it can be concluded that the stereochemical course of the 3'----5'-exonuclease is also inversion.
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PMID:Stereochemical course of the 3'----5'-exonuclease activity of DNA polymerase I. 609 2

The chemical synthesis of adenosine(5') [alpha-thio]diphospho(5')ribofuranosyl-nicotinamide (NAD[S]) is described. The product occurs as a pair of diastereomers with different configuration at the sulfur-bearing phosphorus atom. The diastereomers were separated by high-performance liquid chromatography and their absolute configuration was determined after chemical degradation to the ADP[alpha S] diastereomers and chromatographic comparison with enzymically synthesized ADP[alpha S] diastereomers of known absolute configuration. Additional support for this assignment is based on different rates in the phosphodiesterase-catalyzed hydrolysis. Furthermore the synthesis of [14C]NAD[S] is described. The coenzyme activity of NAD[S] in the reaction with alcohol dehydrogenase from baker's yeast and lactate dehydrogenase from pig heart is very similar to that of beta-NAD. Also, NAD and NAD[S] serve equally well as substrates for NAD glycohydrolase from calf spleen. In contrast, no reaction was detected with NAD pyrophosphorylase, and hydrolysis of the separated NAD[S] diastereomers with snake venom phosphodiesterase showed a 26-fold and a 33-fold slower reaction rate than that of NAD. Nucleotide pyrophosphatase was less sensitive to the S substitution, hydrolyzing NAD[S] 14-times slower than NAD. Poly(ADP-ribose) polymerase from Ehrlich ascites tumor cell nuclei accepted NAD[S] as a substrate but the reaction was significantly slower and approached saturation at much lower values than with NAD. Alkaline hydrolysis of the products insoluble in trichloroacetic acid yielded AMP[S] as the main derivative. It is concluded that with NAD[S] as a substrate the nuclear acceptors were nearly exclusively mono(ADP-ribosyl) ated .
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PMID:NAD[S], an NAD analogue with reduced susceptibility to phosphodiesterase. Chemical synthesis and enzymic properties. 614 44

Neurospora crassa possesses a repressible acid phosphatase with phosphodiesterase activity which appears to permit it to utilize ribonucleic acid as a phosphorus and as a nitrogen source. This acid phosphatase, which is specified by the pho-3 locus, is derepressed approximately eightfold during nitrogen limitation and to an even greater extent during phosphorus limitation, but is unaffected by sulfur limitation. Derepression of the enzyme did not occur when adenosine 5'-monophosphate was the sole phosphorus or nitrogen source. Synthesis of the acid phosphatase is not under the control of the nit-2 locus, which regulates the expression of a large number of other nitrogen catabolic enzymes. The structural gene of the acid phosphatase appears to be a member of both the phosphorus and nitrogen regulatory circuits.
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PMID:Nitrogen regulation of acid phosphatase in Neurospora crassa. 615 48

The hydrolysis of cGMP by phosphodiesterase was conducted in [18O]water to determine the site of bond cleavage and the stoichiometry of 18O incorporation into 5'-GMP. Three different forms of phosphodiesterase including a calmodulin-calcium-dependent enzyme in its basal and activated states were examined. The hydrolysis of cGMP catalyzed by each of the forms of phosphodiesterase proceeded with incorporation of 1 18O atom recoverable in the phosphate moiety of each molecule of 5'-GMP generated. No molecular species of phosphate deriving from the 5'-GMP generated containing two or three 18O were detectable. These results indicate that the phosphodiesterase-catalyzed hydrolysis of cGMP proceeds by nucleophilic substitution at phosphorus resulting in P-O bond cleavage. The stoichiometry of 18O incorporation indicates that the reaction proceeds without phosphate-water oxygen exchange when the hydrolytic reaction is catalyzed by diverse forms of phosphodiesterase in the basal or activated state. These considerations of the phosphodiesterase reaction help to establish the validity of monitoring the rate of enzyme-catalyzed hydrolysis of cGMP as a function of the rate of 18O-labeling of the phosphate of 5'-GMP when the reaction proceeds in a medium of predetermined 18O enrichment.
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PMID:18O-Labeling of guanosine monophosphate upon hydrolysis of cyclic guanosine 3':5'-monophosphate by phosphodiesterase. 625 71

The phosphodiesterase from snake venom catalyzes the hydrolysis of the Rp diastereomer of thymidine 5'-(4-nitrophenyl [17O,18O]phosphate) in H216O with retention of configuration at phosphorus. This result is in agreement with those previously reported for the hydrolysis of chiral phosphorothioate substrates (Bryant, F. R., and Benkovic, S. J. (1979) Biochemistry 18, 2825-2828; Burgers, P. M. J., Eckstein, F., and Hunneman, D. H. (1979) J. Biol. Chem. 254, 7476-7478). The hydrolysis reaction catalyzed by this enzyme occurs via formation of a covalent nucleotidylated enzyme intermediate.
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PMID:Stereochemical course of the hydrolysis of thymidine 5'-(4-nitrophenyl [17O,18O]phosphate) in H216O catalyzed by the phosphodiesterase from snake venom. 627 75

Adenosine 5'-(S)-[16O,17O,18O]phosphate was pyrophosphorylated by the combined action of adenylate kinase and pyruvate kinase. The isotopomers of adenosine 5'-[alpha-16O,17O,18O]triphosphate were hydrolysed by venom 5'-nucleotide phosphodiesterase (Crotalus adamanteus) in H2(17)O. Analysis by 31P nuclear magnetic resonance spectroscopy of the resulting adenosine 5'-[16O,17O,18O]phosphate, after cyclization and esterification, showed that the hydrolysis occurs with retention of configuration at phosphorus. The most likely explanation of this observation is that the enzymic hydrolysis involves a double displacement at phosphorus with a covalent nucleotidyl--enzyme intermediate on the reaction pathway.
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PMID:The stereochemical course of hydrolysis catalysed by snake venom 5'-nucleotide phosphodiesterase. 628 Jun 70


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