Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.11 (AMPK)
12,425 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The selective removal of acidic phosphoproteins from the 80 S rat liver ribosome was accomplished by successive alcohol extractions at low salt concentration. The resulting core ribosomes lost over 90% of their translation activity and were unable to support the elongation factor 2 GTPase reaction. Both activities were partially restored when the dialyzed extracts were added back to the core ribosome. The binding of labeled adenosine diphosphoribosyl-elongation factor 2 to ribosomes was also affected by extraction and could be reconstituted, although not to the same extent as the GTPase activity associated with elongation factor 2 in the presence of the ribosome. The alcohol extracts of the 80 S ribosome contained mostly phosphoproteins P1 and P2 which could be dephosphorylated and rephosphorylated in solution by alkaline phosphatase and protein kinase, respectively. Dephosphorylation of the P1/P2 mixture in the extracts caused a decrease in the ability of these proteins to reactivate the polyphenylalanine synthesis activity of the core ribosome. However, treatment of the dephosphorylated proteins with the catalytic subunit of 3':5'-cAMP-dependent protein kinase in the presence of ATP reactivated the proteins when compared to the activity of the native extracts. Rabbit antisera raised against the alcohol-extracted proteins were capable of impairing both the polyphenylalanine synthesis reaction and the elongation factor 2-dependent GTPase reaction in the intact ribosomes.
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PMID:The activity of the acidic phosphoproteins from the 80 S rat liver ribosome. 612 96

Tyrosine hydroxylase (TH) in freshly prepared 45,000 g supernatant from rat striatum was fractionated by DEAE-cellulose chromatography. The elution was made with 2 vols. of buffer (50 mM Tris, pH 7.4; 2 mM dithiothreitol) followed by 4 vols. of a linear NaCl gradient (0 0.3 M) in the same buffer. TH activity was eluted in two distinct peaks: one at about 0.1 M salt (I), and the other at 0.2 M salt (II). The relationship between the two enzymes peaks was examined as follows. (1) Incubation of the supernatant in the presence of cAMP-dependent protein kinase, 1 mM ATP, 10 mM Mg2+, and 0.1 mM cAMP resulted in the elimination of peak I, with a concomitant increase of peak II. This shift of TH peaks was prevented when the protein kinase was blocked by the addition of its inhibitory modulator. (2) Incubation of the supernatant with alkaline phosphatase, an enzyme known to dephosphorylate a variety of phosphoproteins, resulted in the elimination of peak II, with a concomitant increase of peak I. (3) Only freshly prepared supernatants showed two distinct TH peaks from DEAE-cellulose. From supernatants held at 0 degrees C for 24 h. peak II was markedly reduced and peak I concomitantly increased. Since peak II appears to be readily convertible to peak I, no further fractionation was attempted. From the data obtained here, we believe that peaks I and II are respectively the nonphosphorylated and phosphorylated forms of TH. Furthermore, the endogenous distribution of the two TH forms in striatum was altered by the administration of haloperidol (2 mg/kg. i.p.), a neuroleptic drug known to activate the enzyme via a cAMP-dependent mechanism. At 90 min after the treatment, there was a marked increase of peak II, with a concomitant decrease of peak I. Thus, this procedure provides a simple means for estimating the degree of phosphorylation of TH in vivo in catecholaminergic neurons under various physiological and pharmacological conditions.
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PMID:Two forms of striatal tyrosine hydroxylase from DEAE-cellulose chromatography. 613 70

The kinetics of the interaction of the DNA double-helix-destabilizing protein from roe-deer liver with different DNAs revealed a fast phase which is observed both by the increase in A260 of the DNA and the quenching of the protein intrinsic fluorescence. A slow phase with a smaller amplitude is only recorded by the increase of A260.--The protein contains slightly less than two phosphate groups per molecule, removal of one of which by alkaline phosphatase does not affect its activity; however, removal of both phosphates decreases the DNA-unwinding property significantly. A similar decrease in activity is also revealed upon incorporation of an additional phosphate by cAMP-dependent protein kinase I.--Results of the protection of poly[d(A--T)] from DNase I digestion by the protein are in favor of a migration of the protein along the DNA.
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PMID:The kinetics of the interaction of a helix-destabilizing protein from roe-deer liver with DNA and the influence of phosphorylation. 625 Sep 67

The synthetic phosphohexapeptides Arg-Arg-Ala-Thr(35P)-Val-Ala and Arg-Arg-Ala-Ser(32P)-Val-Ala, phosphorylated by the cAMP-dependent protein kinase and differing only in the nature of the phosphorylated residue, have been used as substrates of a partially purified rat liver protein phosphatase-T, distinct from the multifunctional protein phosphatase-1. While the phosphothreonyl hexapeptide is readily dephosphorylated (exhibiting a Km = 15 microM), the phosphoseryl one is almost unaffected. Such a behavior is not shared by protein phosphatase-1, calf intestine alkaline phosphatase, and potato acid phosphatase, all of which are more active on the phosphoseryl hexapeptide. The NH2-terminal basic residues critical for cAMP-dependent phosphorylation are not required in the dephosphorylation reaction, as both Arg can be removed without impairing the efficiency of protein phosphatase-T toward the phosphothreonyl peptide. On the other hand, the replacement of 2 Pro for the Ala and Val flanking Thr(32P), to give a new phosphohexapeptide reproducing the phosphorylated site of protein phosphatase inhibitor-1, prevents the protein phosphatase-T activity. Moreover, IgG heavy chain 32P labeled in tyrosine is not affected by protein phosphatase-T, while it is dephosphorylated by alkaline phosphatase. These results would indicate that protein phosphatase(s)-T represent a distinct class of protein phosphatases specifically involved in the dephosphorylation of phosphothreonyl residues fulfilling definite structural requirements.
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PMID:Dephosphorylation of synthetic phosphopeptides by protein phosphatase-T, a phosphothreonyl protein phosphatase. 628 35

In Saccharomyces cerevisiae, trehalase activity in crude extracts obtained from wild type cells was activated about 3-fold by preincubation with cAMP and ATP. The inactive trehalase fractionated by DEAE-Sephacel chromatography was activated by the addition of the cAMP-dependent protein kinase fraction from wild type cells in the presence of cAMP and ATP. Using the crude extract obtained from bcy1 mutant cells which were deficient in the regulatory subunit of cAMP-dependent protein kinase, the stimulation of trehalase activity was observed in the absence of cAMP. The cAMP-dependent protein kinase of CYR3 mutant cells which had a high Ka value for cAMP in the phosphorylation reaction required a high cAMP concentration for activation of trehalase. Increased activation of partially purified inactive trehalase (Mr = 320,000) was observed to correlate with increased phosphorylation of a protein (Mr = 80,000) identified by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The assay results using various mutants altered in cAMP metabolism indicated that the activation and phosphorylation of inactive trehalase fractions depended on the cAMP concentration accumulated in mutant cells. Inactivation and dephosphorylation of active trehalase fractions were observed by treatment with alkaline phosphatase or crude cell extracts. The results indicated that the conversion of inactive form of trehalase to the active form is regulated by cAMP through cAMP-dependent protein kinase.
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PMID:Genetic and biochemical evidence that trehalase is a substrate of cAMP-dependent protein kinase in yeast. 630 18

The active NAD-dependent glutamate dehydrogenase of wild type yeast cells fractionated by DEAE-Sephacel chromatography was inactivated in vitro by the addition of either the cAMP-dependent or cAMP-independent protein kinases obtained from wild type cells. cAMP-dependent inhibition of glutamate dehydrogenase activity was not observed in the crude extract of bcy1 mutant cells which were deficient in the regulatory subunit of cAMP-dependent protein kinase. The cAMP-dependent protein kinase of CYR3 mutant cells, which has a high K alpha value for cAMP in the phosphorylation reaction, required a high cAMP concentration for the inactivation of NAD-dependent glutamate dehydrogenase. An increased inactivation of partially purified active NAD-dependent glutamate dehydrogenase (Mr = 450,000) was observed to correlate with increased phosphorylation of a protein subunit (Mr = 100,000) of glutamate dehydrogenase. The phosphorylated protein was labeled by an NADH analog, 5'-p-fluorosulfonyl[14C]benzoyladenosine. Activation and dephosphorylation of inactive NAD-dependent glutamate dehydrogenase fractions were observed in vitro by treatment with bovine alkaline phosphatase or crude yeast cell extracts. These results suggested that the conversion of the active form of NAD-dependent glutamate dehydrogenase to an inactive form is regulated by phosphorylation through cAMP-dependent and cAMP-independent protein kinases.
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PMID:Regulation of NAD-dependent glutamate dehydrogenase by protein kinases in Saccharomyces cerevisiae. 631 81

Purified proteoglycan subunits from human articular, bovine articular and nasal cartilages, and a rat chondrosarcoma were phosphorylated in vitro by beef heart cAMP-dependent protein kinase in the presence of gamma 32P-ATP. In these experiments, a maximum of 1.7 moles of 32P were incorporated per mole of proteoglycan from human cartilage. Phosphorylation was dependent on the presence of cAMP. Analysis by autoradiography revealed that serine residues in the core protein of the proteoglycan were the sites of phosphorylation. Treatment of proteoglycan subunits with chondroitinase ABC and alkaline phosphatase prior to reaction with cAMP-dependent protein kinase increased the incorporation of 32P by 12-30% when compared with untreated proteoglycans. These data indicate that proteoglycans in cartilage can be phosphorylated by cAMP-dependent protein kinase.
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PMID:Phosphorylation of proteoglycans from human articular cartilage by a cAMP-dependent protein kinase. 647 53

Both spermidine and spermine are acetylated in chicken brain and retina. From spermidine, more N1-acetylspermidine than N8-acetylspermidine is formed by both the brain and the retinal cytosol. Km for spermidine is similar with the enzyme preparation of the two tissues, but that for spermine is lower with the retinal preparation. Both tissues contain an activity able to reduce spermidine acetyltransferase activity. Both alkaline phosphatase and cAMP-dependent protein kinase (catalytic subunit) are able to inactivate the spermidine acetyltransferase activity of both tissues. Spermidine acetyltransferase activity and polyamine levels have been measured in both brain and retina during embryonic life. Only in the last part of the development can enzyme activity be correlated with the retina spermidine and spermine concentration.
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PMID:Acetylation of polyamines in chicken brain and retina. 653 19

Spermidine acetyltransferase activity is more than 10-fold higher in the pancreas of a 20-hr-fasted than in that of a fed chicken. The preparation of the fed bird inactivates the other. The effect is due to a thermolabile component of microsomes, and is also obtained with alkaline phosphatase. The inactivated preparation partially recovers its activity through phosphorylation catalyzed by a cAMP-dependent protein kinase. The results presented strongly suggest that spermidine acetyltransferase activity is regulated by phosphorylation and dephosphorylation.
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PMID:Regulation of spermidine acetyltransferase activity by phosphorylation and dephosphorylation. 665 45

Certain metabolic properties of hormonally responsive osteogenic sarcoma cells derived from a transplantable rat tumor have been compared with those of related normal rat bone cells. All studies were carried out on cells grown in monolayer culture. Normal rat bone cells derived by repeated collagenase/trypsin digestion of newborn rat calvaria. Bone cells selected for comparison were thought to be osteoblast-like, as judged by enrichment of alkaline phosphatase and adenylate cyclase responsiveness to parathyroid hormone and prostaglandin E2. The adenylate cyclases of the two cell strains were similarly stimulated by a range of prostanoids and their metabolites and analogs. Morphology showed the two cell strains to be similar; the only obvious difference was a multilayering of cells in the sarcoma cultures, while the normal cultures showed abundant extracellular fibril formation which was not seen in the tumor cells. Investigation of the cAMP-dependent protein kinase isoenzymes showed the presence of two forms in both cell types, one eluting at a low salt concentration and the other at a high salt concentration. There was approximately twice the amount of the first isoenzyme compared to the second isoenzyme. The results indicate the usefulness of the two cell strains to elucidate further the molecular mechanisms of action of parathyroid hormone and prostaglandins.
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PMID:Functional properties of hormonally responsive cultured normal and malignant rat osteoblastic cells. 693 60


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