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)

We have studied the effect of protein phosphokinase (EC 2.7.1.37; ATP:protein phosphotransferase) and phosphoprotein phosphatase (EC 3.1.3.16; phosphoprotein phosphohydrolase) on reverse transcriptase (RNA-dependent DNA nucleotidyltransferase) activity of Rous sarcoma virus. Protein kinase from Rous sarcoma virus-transformed chick embryo fibroblasts was purified by DEAE-cellulose chromatography, Sephadex gel filtration, and isoelectric focusing. Purified reverse transcriptase from Rouse sarcoma virus was preincubated with protein kinase and ATP under conditions allowing incorporation of phosphate into substrate protein. After the preincubation, reverse transcriptase activity was assayed in the presence of poly(rA).oligo(dT) as template. A 2- to 5-fold increase of reverse transcriptase activity was found after the preincubation of reverse transcriptase with protein kinase and ATP. Incubation of reverse transcriptase with heat-treated, inactive protein kinase and ATP had no effect on transcriptase activity. When the transcriptase preparation was incubated with protein kinase and [gamma-32P]ATP and subsequently purified by chromatography on phosphocellulose and Sephadex gel filtration, significant amounts of 32P-labeled proteins were found in the fractions exhibiting reverse transcriptase activity, suggesting 32P incorporation into transcriptase or transcriptase-associated proteins. A 20-60% decrease of reverse transcriptase activity was observed after incubation of reverse transcriptase with phosphatase. The results suggest that phosphorylative modification of reverse transcriptase may be critical in the regulation of reverse transcriptase-catalyzed DNA synthesis.
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PMID:Protein kinase and its regulatory effect on reverse transcriptase activity of Rous sarcoma virus. 5 72

Sera from certain rabbits bearing Schmidt-Ruppin strain Rous sarcoma virus (RSV)-induced tumors precipitated p60(src) from chicken cells transformed by the homologous virus as well as by other strains [Prague strain RSV, Bryan high-titer strain RSV, and Bratislava 77 strain of avain sarcoma virus (ASV)], the molecular weights (M(r)s) ranging from 60,000 to 64,000. The p60(src) immunoprecipitated from cells transformed by each of these strains incorporated [gamma-(32)P]ATP into the M(r) 53,000 subunit of IgG, though with differing activities. No such protein kinase activity (ATP:protein phosphotransferase, EC 2.7.1.37) was observed when the following immunoprecipitates were used: from uninfected cells, from untransformed cells infected by Rous-associated virus, or from cells transformed by acute leukosis viruses, avian erythroblastosis virus, or myelocytoma virus 29. The kinase reaction had a pH optimum at pH 5.9 and an apparent K(m) for ATP of 4.9 +/- 2 muM, and was dependent on Mg(2+) (K(b) = 46 +/- 12 mM), for which Ca(2+) was no substitute. The kinase was cyclic AMP independent. In order to test whether the protein kinase reaction is directly catalyzed by p60(src), we compared the in vitro temperature sensitivities of the kinase activities from cells infected by transformation-temperature-sensitive mutant and parental wild-type virus. The first-order rate constant for the inactivation of the kinase from extracts of cells infected by the mutant virus was 2-fold greater than that from cells infected by wild-type virus. This result implicates the protein kinase as an enzymatic activity of the src gene product, the p60(src). Concomitant with the loss of the kinase activity by heat inactivation, p60(src) loses 60-70% of its phosphate content. The kinetics of dephosphorylation exactly parallel those for the inactivation of the kinase activity, suggesting that the p60(src) kinase is itself dependent on phosphorylation for its activity.
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PMID:Src Gene product from different strains of avian sarcoma virus: Kinetics and possible mechanism of heat inactivation of protein kinase activity from cells infected by transformation-defective, temperature-sensitive mutant and wild-type virus. 21 25

cAMP-dependent protein kinase (PKA; ATP: protein phosphotransferase; EC 2.7.1.37) appears to be the major mediator of cAMP responses in mammalian cells. We have investigated the role of PKA subunits in the regulation of specific genes in response to cAMP by cotransfection of wild-type or mutant subunits of PKA together with cAMP-inducible reporter genes. Overexpression of catalytic subunit induced expression from three cAMP-regulated promoters (alpha-subunit, c-fos, E1A) in the absence of elevated levels of cAMP but did not affect expression from two unregulated promoters (Rous sarcoma virus, simian virus 40). Cotransfection of a regulatory subunit gene containing mutations in both cAMP binding sites strongly repressed both basal and induced expression from the cAMP-responsive alpha-subunit promoter without affecting expression from the Rous sarcoma virus promoter. These experiments indicate that cAMP induces gene expression through phosphorylation by the catalytic subunit and that the ambient degree of phosphorylation dictates the level of basal as well as induced expression of the cAMP-regulated alpha-subunit gene.
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PMID:Regulation of transcription by cyclic AMP-dependent protein kinase. 254 78

A serine protein kinase specific for ribosomal protein S6 in 40 S subunits has been identified and purified greater than 15,000-fold (with 18% recovery) from developing chicken embryos. An analogous enzyme has also been detected in serum-stimulated chicken embryo fibroblasts. The S6 kinase was identified as a phosphoprotein of Mr approximately 65,000 based on (i) gel filtration, (ii) apparent autophosphorylation of a 65-kDa protein when several enzyme preparations were incubated with [gamma-32P]ATP in the absence of added substrate, (iii) comigration of S6 kinase activity with the autophosphorylating activity over a variety of chromatographic resins, and (iv) elution and renaturation of S6 kinase activity from the 65-kDa region of a sodium dodecyl sulfate-polyacrylamide gel. The purified protein kinase is highly specific for S6 in 40 S subunits and does not appreciably phosphorylate casein, histone H1, mixed histones, protamine, polyoma virus capsid protein, or phosphorylase a/b. These characteristics suggest that this enzyme is unrelated to other protein kinases believed to be activated in stimulated cells, including cAMP-dependent protein kinase, protein kinase C (Ca2+/phospholipid-dependent enzyme), or Ca2+/calmodulin-dependent protein kinases. In fibroblasts, S6 kinase is activated by a variety of mitogenic agents including the tyrosine-specific protein kinase of Rous sarcoma virus, pp60v-src, phorbol esters, and growth factors. The present identification and purification of the S6 kinase should facilitate future studies aimed at elucidating the molecular mechanisms by which signals from these diverse stimuli rapidly converge upon and activate this enzyme.
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PMID:Identification of a ribosomal protein S6 kinase regulated by transformation and growth-promoting stimuli. 282 90

A calmodulin-dependent protein kinase has been purified extensively from a Rous sarcoma virus-transformed rat cell line (RR1022) and from normal rat liver. The calmodulin-dependent protein kinase activity was manifested by in vitro phosphorylation of a single Mr 57 000 endogenous phosphoprotein (pp57) present in both the virally transformed cells and normal rat liver. The calmodulin-dependent protein kinase from transformed cells fractionated with the viral src gene product, pp60v-src, through a 650-fold purification of the oncogene product. However, purification of the calmodulin-dependent protein kinase from normal liver demonstrated that the calmodulin-dependent kinase was distinct from pp60v-src. Phosphorylation of pp57 by the kinase purified from the transformed cell line required Ca2+ and calmodulin, was inhibited by EDTA and was unaffected by cAMP or the heat- and acid-stable protein inhibitor of cAMP-dependent protein kinase. Troponin C did not substitute for calmodulin. A virtually identical calmodulin-dependent protein kinase activity was purified from rat liver by affinity chromatography on calmodulin-Sepharose. Phosphorylation of pp57 by the affinity-purified liver protein kinase was also observed, and required Ca2+ and calmodulin. EGTA and trifluoroperazine inhibited pp57 phosphorylation. The calmodulin-dependent protein kinase reported here did not phosphorylate substrates of known calmodulin-dependent protein kinases in vitro (myosin light chain, phosphorylase b, glycogen synthase, microtubule-associated proteins, tubulin, alpha-casein). Because none of these proteins served as substrates in vitro and pp57 was the only endogenous substrate found, the properties of this enzyme appear to be different from any previously described calmodulin-dependent protein kinase.
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PMID:A calmodulin-dependent protein kinase in Rous sarcoma virus-transformed rat cells and normal liver. 298 22

The specific activity of protein kinase C in rat skeletal myoblasts decreased when they were exposed for very short periods to isoproterenol, forskolin, dibutyryl cyclic AMP (Bt2cAMP), or the phorbol ester, 12-O-tetradecanoylphorbol-13-acetate (TPA). In the presence of Bt2cAMP or forskolin only the cytosolic but not the membrane-bound kinase activity was found to decrease. Treatment with TPA, however, led to a decrease in the activity of the enzyme both in the cytosolic as well as the membrane fractions. The effects observed in vivo could be duplicated in crude extracts of myoblasts incubated with cAMP analogues or TPA. In the presence of ATP, protein kinase C activity decreased considerably in crude cytosolic fractions treated with the cAMP analogues, but a requirement for ATP was not evident for the decrease in activity brought about by TPA. For the cAMP analogues the decrease in protein kinase C was also prevented by incubation of the extracts with an inhibitor of cAMP-dependent protein kinase. The regulation of protein kinase C by Bt2cAMP (but not by TPA) was altered in Rous sarcoma virus-transformed myoblasts. It is considered likely that a component affected by cAMP (probably a substrate for cAMP-dependent protein kinase) participates in the regulation of protein kinase C activity, and it is altered in unknown ways in transformed myoblasts.
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PMID:Regulation of protein kinase C by cyclic adenosine 3':5'-monophosphate and a tumor promoter in skeletal myoblasts. 303 83

Protein kinase capable of phosphorylating 40S ribosomal protein S6 on serine residues has been detected in chicken embryo fibroblasts. This activity appears to be regulated in direct response to expression of pp60v-src in chicken embryo fibroblasts infected with a temperature-sensitive transformation mutant of Rous sarcoma virus. Partially purified S6 kinase was highly specific for S6 in 40S ribosomal subunits. The S6 kinase was not inhibited by calcium or by the heat-stable inhibitor of cAMP-dependent protein kinase, nor was it activated by phosphatidylserine, diacylglycerol, and calcium. Thus, it is distinct from protein kinase C and cAMP-dependent protein kinase, which are capable of phosphorylating S6 in vitro. The tumor-promoter phorbol 12-myristate 13-acetate also stimulated ribosomal protein S6 kinase activity in serum-starved chicken embryo fibroblasts, whereas phorbol, the inactive analog of phorbol 12-myristate 13-acetate, had no effect. S6 kinase activity stimulated by expression of pp60v-src, by phorbol 12-myristate 13-acetate, or by serum growth factors exhibited similar chromatographic properties upon ion-exchange chromatography. These results suggest that a common protein kinase may be activated by three diverse stimuli all involved in regulating cell proliferation.
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PMID:Regulation of a ribosomal protein S6 kinase activity by the Rous sarcoma virus transforming protein, serum, or phorbol ester. 393 63

The activation state of cyclic AMP-dependent protein kinase(s)(ATP:protein phosphotransferase, EC 2.7.1.37) is transiently increased 2-fold as a function of G1 progression in mitotically synchronized Chinese hamster ovary cells. The cellular content of type I kinase increases concomitantly with the increase in general protein, whereas the activity of type II kinase increases as a function of time in G1 to a maximum at the G1/S border. In contrast, in the presence of dibutyryl-cyclic AMP, there is a decrease of type II kinase and a several-fold increase of type I kinase. In proliferating cells, the ratio of type I to type II was 0.37, while in the dibutyryl-cyclic AMP growth-arrested cells it was 3.96. The increase in type II kinase during G1 transition and the increase in type I kinase during dibutyryl-cyclic AMP treatment were dependent on protein synthesis. A similar pattern of type I and type II kinase expression during cell cycle progression occurred in Rat-1 fibroblasts and Rat-1 cells transformed by Rous sarcoma virus. The inclusion of dibuityryl-cyclic AMP in the growth media promoted a marked increase in type I holoenzyme, which was inhibited by cycloheximide, and a decrease in type II kinase. Neither AMP nor sodium butyrate had any effect on cellular kinase levels, whereas 8-bromo-cyclic AMP mimicked the action of dibutyryl-cyclic AMP. Estimation of half-lives for the kinase types showed that there was little turnover of either type during normal G1 progression, rapid turnover of both types as cells exited from mitosis, and selective turnover of type II upon addition of dibutyryl-cyclic AMP.
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PMID:Differential expression of type I and type II cyclic AMP-dependent protein kinases during cell cycle and cyclic AMP-induced growth arrest. 615 48

The Rous sarcoma virus (RSV) transforming gene product has been identified and characterized as a phosphoprotein with a molecular weight of 60,000, denoted pp60src. Partially purified pp60src displays a closely associated phosphotransferase activity with the unusual specificity of phosphorylating tyrosine residues in a variety of proteins. That the enzymatic activity observed is actually encoded by the RSV-transforming gene is indicated by the comparison of the pp60src-protein kinase isolated from cells tranformed by a wild-type RSV or by a RSV temperature-sensitive transformation mutant; these experiments revealed that the latter enzyme had a half-life of 3 min at 41 degrees C, whereas that of the wild-type enzyme was 20 min. Evidence is now beginning to accumulate showing that viral pp60src expresses its protein kinase activity in transformed cells as well as in vitro because at least one cellular protein has been identified as a substrate for this activity of pp60src. Although the protein kinase activity associated with pp60src is itself cyclic AMP (cAMP) independent, the molecule contains at least one serine residue that is directly phosphorylated by the cellular cAMP-dependent protein kinase, thus suggesting that the viral transforming gene product may be regulated indirectly by the level of cAMP. The significance of this latter observation must be regarded from the point of view that the RSV src gene is apparently derived from a normal cellular gene that seemingly expresses in normal uninfected cells a phosphoprotein structurally and functionally closely related to pp60src. This celluar protein, found in all vertebrate species tested, also is a substrate for a cAMP-dependent protein kinase of normal cells, and, therefore, may be evolved to function in a regulatory circuit involving cAMP.
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PMID:Molecular events in cells transformed by Rous Sarcoma virus. 625 1

The gag-linked transformation-specific protein (polyprotein) p80 of Esh avian sarcoma virus (ESV) has been compared by tryptic peptide mapping with the homologous protein p90 of Yamaguchi 73 avian sarcoma virus (Y73). p80 of ESV and p90 of Y73 were found to share all four of their major nonstructural, transformation-specific, methionine-containing peptides and to have at least seven cysteine-containing transformation-specific peptides in common. Two nonstructural cysteine-containing peptides unique for ESV p80 and three specific for Y73 p90 were also identified. None of these peptides were found in the transforming gene product pp60src of Rous sarcoma virus (RSV) or in the transformation-specific polyproteins p105 of avian sarcoma virus PRCII (PRCII) or p140 of Fujinami sarcoma virus (FSV). ESV p80 and Y73 p90 are phosphorylated, and their tryptic phosphopeptides appear to be identical. In each polyprotein two major phosphopeptides were demonstrated, one containing phosphoserine, the other phosphotyrosine. The latter serves as phosphoacceptor for the protein kinase activities (ATP:protein phosphotransferase, EC 2.7.1.37) associated with p80 and p90. These protein kinase activities were found to be functionally indistinguishable but could be easily distinguished from the activities associated with PRCII p105 and FSV p140 on the basis of their cation requirement and target site specificity. On that basis also, p80/p90-associated protein kinases were found to be more similar to the enzymatic activity of pp60src than to those associated with the PRCII and FSV transformation-specific polyproteins. These results document a close genetic relationship between the two independently isolated sarcoma viruses Y73 and ESV. On the basis of the relatedness of transformation-specific proteins, ESV and Y73 constitute class III of avian sarcoma viruses, with class I containing the various strains of RSV and class II encompassing FSV and PRCII.
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PMID:A third class of avian sarcoma viruses, defined by related transformation-specific proteins of Yamaguchi 73 and Esh sarcoma viruses. 626 85


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