EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phospholipid methyltransferase, the enzyme that converts phosphatidylethanolamine into phosphatidylcholine with S-adenosyl-L-methionine as the methyl donor, was purified to apparent homogeneity from rat liver microsomal fraction. When analysed by SDS/polyacrylamide-gel electrophoresis only one protein, with molecular mass about 50 kDa, is detected. This protein could be phosphorylated at a single site by incubation with [alpha-32P]ATP and the catalytic subunit of cyclic AMP-dependent protein kinase. A less-purified preparation of the enzyme is mainly composed of two proteins, with molecular masses about 50 kDa and 25 kDa, the 50 kDa form being phosphorylated at the same site as the homogeneous enzyme. After purification of both proteins by electro-elution, the 25 kDa protein forms a dimer and migrates on SDS/polyacrylamide-gel electrophoresis with molecular mass about 50 kDa. Peptide maps of purified 25 kDa and 50 kDa proteins are identical, indicating that both proteins are formed by the same polypeptide chain(s). It is concluded that rat liver phospholipid methyltransferase can exist in two forms, as a monomer of 25 kDa and as a dimer of 50 kDa. The dimer can be phosphorylated by cyclic AMP-dependent protein kinase.
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PMID:Purification of phospholipid methyltransferase from rat liver microsomal fraction. 380 Sep 12

Nerve growth factor (NGF) and epidermal growth factor (EGF) produce stable alterations in PC12 cells that persist in the detergent-insoluble cytoskeleton, resulting in the phosphorylation of a 250,000-mol-wt cytoskeletally associated protein in situ. Treatment of PC12 cells with NGF or EGF, followed by detergent lysis of the cells and incubation of the resulting cytoskeletons with gamma-32P-ATP, permitted detection of hormonally stimulated, energy-dependent events, which result in the enhanced phosphorylation of a cytoskeletally associated protein as an immediate consequence of receptor occupancy. These events were elicited only upon treatment of intact cells at physiological temperatures. The NGF- and EGF-stimulated events occurred rapidly; however, they were a transient effect of hormone action. NGF and EGF were found to act through independent mechanisms to stimulate the in situ phosphorylation of the 250,000-mol-wt protein, as the effects of NGF, but not EGF, were blocked by methyltransferase inhibitors. The 250,000-mol-wt protein was phosphorylated on serine and threonine residues in response to both NGF and EGF although in somewhat different proportions. The data suggest that the hormone-stimulated labeling of the 250,000-mol-wt protein may be the result of either the direct activation of a protein kinase, the redistribution of the kinase relative to its substrates as a consequence of hormone action, or the coincident occurrence of these events.
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PMID:Nerve growth factor- and epidermal growth factor-stimulated phosphorylation of a PC12 cytoskeletally associated protein in situ. 387 79

Incubation of partially purified rat liver lipid methyltransferase with MgATP and the catalytic subunit of the cyclic AMP dependent protein kinase results in up to 4-fold activation of the methylation reaction. When (gamma-32p) MgATP is included in the assay mixture, the analysis of the phosphoprotein products by electrophoresis shows the incorporation of 32p into a single protein band of about 50K and pI 4.75. It is concluded that rat liver lipid methyltransferase can be converted from a low activity dephosphorylated form to a high activity phosphorylated form.
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PMID:Activation of partially purified rat liver lipid methyltransferase by phosphorylation. 633 23

The methyltransferase that catalyzes the trimethylation of lysine 115 in calmodulin has been purified from sheep brain. The enzyme is a monomer with an apparent molecular weight of 38,000 on the basis of gel filtration chromatography and SDS-polyacrylamide electrophoresis. In the presence of calcium the methyltransferase exhibited a Km of 100 nM for unmethylated calmodulin and a kcat of 0.0278 s-1. The enzyme was able to use calcium-depleted calmodulin as a substrate, albeit with less efficiency. The methylation of calcium-depleted calmodulin was inhibited by increases in ionic strength, whereas methylation of calcium-saturated calmodulin was not affected. This suggests a difference in the mode of interaction of calcium-saturated and calcium-depleted calmodulins with the enzyme. As with calmodulin's interactions with other calmodulin-dependent enzymes, the oxidation of the methionines of calmodulin by performic acid treatment decreases the ability of the methyltransferase to recognize and methylate calmodulin. A calmodulin-binding peptide based on the calmodulin-dependent protein kinase II sequence and the naphthalenesulfonamide W-7 inhibit the calmodulin methyltransferase-calmodulin interaction in a calcium-dependent manner. Removal of the NH2-terminal lobe (residues 1-77) does not affect the ability of the calmodulin methyltransferase to recognize and methylate lysine 115. Thus, the determinants for calmodulin methyltransferase binding reside solely in the COOH-terminal lobe of calmodulin. Further, structural features within this region, in particular, the hydrophobic cleft, that are manifested upon calcium binding may contribute to the interaction of calmodulin with the enzyme.
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PMID:Isolation and kinetic characterization of the calmodulin methyltransferase from sheep brain. 826 75

Parathyroid hormone (PTH)-mediated gene activation was assessed in the osteoblast-like rat cell line ROS17/2.8 with two PTH fragments harboring distinct activating domains: PTH-(1-34) and PTH-(28-48). The PTH response of genes expressed immediate early in the cell cycle or in the osteoblast developmental sequence was investigated. In addition, subtractive cloning was used to identify genes in ROS17/2.8 cells that are activated by the two PTH domains. PTH-(1-34) immediately increased the transcript levels of c-fos and c-jun at a considerably higher rate than PTH-(28-48). A significant immediate PTH effect on osteoblastic marker genes could not be detected, with the exception of elevated ornithine decarboxylase transcript levels. However, continuous application of PTH-(1-34) increased transcript levels of the osteoblast-specific osteocalcin gene and reduced those of other osteoblastic marker genes including alkaline phosphatase and the PTH/PTH-related peptide receptor. By subtractive cloning, nine cDNAs were isolated corresponding to mRNAs directly up-regulated by PTH-(1-34) or PTH-(28-48). Among these were a cyclic phosphodiesterase, a (cytosine 5)-methyltransferase, an 80-kDa protein kinase C substrate, junB, and a novel GC-binding protein. Three cDNAs are unknown at present. Interestingly, in all cases, the efficiency of gene activation by PTH-(28-48) was substantially lower in comparison with PTH-(1-34). PTH-mediated protein kinase C signaling in ROS17/2.8 cells may therefore constitute a minor pathway in comparison with the dominant cAMP/protein kinase A cascade.
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PMID:Domain-specific gene activation by parathyroid hormone in osteoblastic ROS17/2.8 cells. 870 88

Significant progress has been made on the random sequencing of cDNAs (ESTs) and the genetic and physical mapping of the Arabidopsis thaliana genome. New techniques are now required to identify and map the expressed genes efficiently on A. thaliana chromosomes. A novel method to construct a transcription map of expressed genes or cDNAs in specific regions of the genome using DNA-latex particles has been developed. The region-specific DNA fragments prepared from six cosmid clones that constitute a contig covering the abi1 locus on chromosome 4 were covalently bound to latex particles. The DNA-latex particles were used for the selection of region-specific cDNAs. Sequence analysis of the cDNA clones revealed that ABI1, RPS2, casein kinase 1 (CK1), nucleosome assembly protein I (NAP) cDNAs and T20837 EST, which are situated within the contig near abi1 locus, were selected. These results indicate that the cDNAs in the specific region of the genome were faithfully selected with this method. Sequence analysis also indicated that 11 selected cDNAs were derived from novel genes located near the abi1 locus and that four of the selected cDNAs encode putative proteins that have sequence similarity to cationic peroxidase, phosphatidylserine decarboxylase 2 (PSD2), trans-caffeoyl CoA 3-O-methyltransferase (CCoAMT), and proteasome subunit XC3.
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PMID:Rapid construction of a transcription map for a cosmid contig of Arabidopsis thaliana genome using a novel cDNA selection method. 930 Oct 97

This study was designed to evaluate whether the enzymes of the nitric oxide/cyclic-GMP pathway, nitric oxide synthase and soluble guanylyl cyclase, are functionally coupled in controlling catecholamine secretion in primary cultures of bovine chromaffin cells. In immunocytochemical studies, 80-85% of the tyrosine hydroxylase-positive chromaffin cells also possessed phenylethanolamine-N-methyltransferase, f1p4cating their capability to synthesize epinephrine. Immunoreactivity for neuronal-type nitric oxide synthase was found in over 90% of all chromaffin cells. Reverse transcription-polymerase chain reaction also demonstrated neuronal-type nitric oxide synthase messenger RNA. Immunoreactivity for soluble guanylyl cyclase was detectable in over 95% of chromaffin cells. Double-labeling immunofluorescence studies co-localized neuronal-type nitric oxide synthase and soluble guanylyl cyclase with tyrosine hydroxylase and phenylethanolamine-N-methyltransferase in the majority of chromaffin cells. Chromaffin cells possessed basal nitric oxide synthase activity which could be stimulated by acetylcholine and inhibited by NG-nitro-L-arginine methyl ester. Activation of soluble guanylyl cyclase by endogenously synthesized nitric oxide or the nitric oxide donor compound sodium nitroprusside was blocked by the inhibitor of soluble guanylyl cyclase 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one. Catecholamine release and the increase in cytosolic Ca2+ concentration evoked by acetylcholine were enhanced by inhibitors of the endogenous nitric oxide/cyclic-GMP pathway such as NG-nitro-L-arginine methyl ester, 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one and the protein kinase G inhibitor Rp-8-pCPT-cGMPS. These data indicate that chromaffin cells possess an autocrine nitric oxide/cyclic-GMP pathway tonically controlling the inhibition of catecholamine release.
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PMID:Functional coupling of nitric oxide synthase and soluble guanylyl cyclase in controlling catecholamine secretion from bovine chromaffin cells. 948 18

We have previously reported that elicitor-induced benzophenanthridine alkaloid biosynthesis in suspension-cell cultures of Sanguinaria canadensis L. (SCP-GM) is mediated by a signal transduction system that involves calcium and possibly protein kinase(s). In this work, a number of exogenous agents were employed to further investigate the components of the signal transduction pathway involved in the induction of alkaloid biosynthesis by a fungal elicitor and abscisic acid (ABA). SCP-GM suspension-cells were treated with compounds that modify protein kinase activity, including phorbol esters, and 1-oleoyl-2-acetyl-rac-glycerol (OAG), a synthetic diacylglycerol analogue. Phorbol-12-myristate-13-acetate induced alkaloid accumulation by as much as 65-fold over control values, while the negative control, phorbol-13-monoacetate, had no effect. OAG also increased alkaloid production by approximately 25-fold as compared to controls. Likewise, pretreatment of the suspension-cell cultures with H-7 or staurosporine, significantly suppressed ABA- or fungal-induction of benzophenanthridine alkaloid biosynthesis. Modulators of GTP-binding protein activity were also active in this system. Treatment of the suspension-cells with cholera toxin (CHX) induced alkaloid accumulation by 25-fold, which increased to 34-fold when CHX was combined with a fungal elicitor derived from Penicillium expansum (PE), and 32-fold when CHX was combined with ABA. Treatment of SCP-GM cells with CHX also enhanced the activities of two N-methyltransferases in the benzophenanthridine biosynthetic pathway namely, tetrahydroberberine-N-methyltransferase and tetrahydrocoptisine-N-methyltransferase, by six and seven fold, respectively. Furthermore, benzophenanthridine alkaloid biosynthesis was induced by treating the suspension-cells with the G-protein activators, mastoparan, mas-7 or melittin, while the inactive homologue, mas-17, did not. Suppression of alkaloid accumulation occurred when the suspension-cells were treated with GDP beta S or pertussis toxin prior to treatment of the SCP-GM cells with either PE or ABA. The results support the hypothesis that one or more protein kinases, and putative G proteins are involved in the signal transduction pathway that mediates ABA and fungal-induced benzophenanthridine alkaloid biosynthesis.
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PMID:Involvement of protein kinase and G proteins in the signal transduction of benzophenanthridine alkaloid biosynthesis. 962 55

Most motile bacteria are capable of directing their movement in response to chemical gradients, a behavior known as chemotaxis. The signal transduction system that mediates chemotaxis in enteric bacteria consists of a set of six cytoplasmic proteins that couple stimuli sensed by a family of transmembrane receptors to behavioral responses generated by the flagellar motors. Signal transduction occurs via a phosphotransfer pathway involving a histidine protein kinase, CheA, and a response regulator protein, CheY, that in its phosphorylated state, modulates the direction of flagellar rotation. Two auxiliary proteins, CheW and CheZ, and two receptor modification enzymes, methylesterase CheB and methyltransferase CheR, influence the flux of phosphoryl groups within this central pathway. This paper focuses on structural characteristics of the four signaling proteins (CheA, CheY, CheB, and CheR) for which NMR or x-ray crystal structures have been determined. The proteins are examined with respect to their signaling activities that involve reversible protein modifications and transient assembly of macromolecular complexes. A variety of data suggest conformational flexibility of these proteins, a feature consistent with their multiple roles in a dynamic signaling pathway.
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PMID:Structural analysis of bacterial chemotaxis proteins: components of a dynamic signaling system. 1004 6

It was recently discovered that the aarF gene in Providencia stuartii is required for coenzyme Q (CoQ) biosynthesis. Here we report that yigR, the Escherichia coli homologue of aarF, is ubiB, a gene required for the first monooxygenase step in CoQ biosynthesis. Both the P. stuartii aarF and E. coli ubiB (yigR) disruption mutant strains lack CoQ and accumulate octaprenylphenol. Octaprenylphenol is the CoQ biosynthetic intermediate found to accumulate in the E. coli strain AN59, which contains the ubiB409 mutant allele. Analysis of the mutation in the E. coli strain AN59 reveals no mutations within the ubiB gene, but instead shows the presence of an IS1 element at position +516 of the ubiE gene. The ubiE gene encodes a C-methyltransferase required for the synthesis of both CoQ and menaquinone, and it is the 5' gene in an operon containing ubiE, yigP, and ubiB. The data indicate that octaprenylphenol accumulates in AN59 as a result of a polar effect of the ubiE::IS1 mutation on the downstream ubiB gene. AN59 is complemented by a DNA segment containing the contiguous ubiE, yigP, and ubiB genes. Although transformation of AN59 with a DNA segment containing the ubiB coding region fails to restore CoQ biosynthesis, transformation with the ubiE coding region results in a low-frequency but significant rescue attributed to homologous recombination. In addition, the fre gene, previously considered to correspond to ubiB, was found not to be involved in CoQ biosynthesis. The ubiB gene is a member of a predicted protein kinase family of which the Saccharomyces cerevisiae ABC1 gene is the prototypic member. The possible protein kinase function of UbiB and Abc1 and the role these polypeptides may play in CoQ biosynthesis are discussed.
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PMID:Identification of Escherichia coli ubiB, a gene required for the first monooxygenase step in ubiquinone biosynthesis. 1096 98

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