EC:2.7.11.27 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.27 (AMPK)
6,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A modification of the technique of Glyco-Gel affinity column chromatography has been employed to separate glycosylated proteins from nonglycosylated proteins of hemolysates. When glycosylation in hemolysates of 11 type I diabetic subjects was compared with that from 7 normal subjects, significant increases were found in glycosylation of hemoglobin (Hb) (12.1 +/- 6.0% versus 4.7 +/- 0.5%) and purine nucleoside phosphorylase (PNP) (5.3 +/- 3.0% versus 2.1 +/- 0.5%). However, no differences were found for nucleoside diphosphokinase (NDPK) (1.5 +/- 1.1% versus 1.0 +/- 0.4%) and adenylate kinase (AMPK) (0.5 +/- 0.4% versus 0.7 +/- 0.2%). Linear relationships were seen between glycosylated Hb and glycosylated PNP (r = 0.97) or glycosylated NDPK (r = 0.81). On incubation of hemolysates from normal individuals with high glucose (1500 mg/dl or 83 mM) and NaCNBH3 (20 mM), linear increases in the degrees of glycosylation were seen with time. After 18 h, the percentages of glycosylation of Hb, PNP, NDPK, and AMPK were increased from normal values to 31, 24, 11, and 3, respectively. When partially purified human erythrocytic PNP was incubated with various monosaccharides (20 mM) in the presence of NaCNBH3 for 6 h, glycosylation increases of 2-5-fold were seen in the order ribose greater than mannose greater than galactose greater than glucose.
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PMID:Nonenzymatic glycosylation of erythrocytic proteins in normal and diabetic subjects. Enzymes of nucleoside and nucleotide metabolism. 298 81

Clostridium symbiosum pyruvate phosphate dikinase (PPDK) catalyzes the interconversion of adenosine 5'-triphosphate (ATP), orthophosphate (P(i)), and pyruvate with adenosine 5'-monophosphate (AMP), pyrophosphate (PP(i)), and phosphoenolpyruvate (PEP). The nucleotide binding site of this enzyme was labeled using the photoaffinity reagent [32P]-8-azidoadenosine 5'-triphosphate ([32P]-8-azidoATP). Subtilisin cleavage of the [alpha-32P]-8-azidoATP-photolabeled PPDK into domain-sized fragments, prior to SDS-PAGE analysis, allowed us to identify two sites of modification: one between residues 1 and 226 and the other between residues 227 and 334. Saturation of the ATP binding site with adenylyl imidodiphosphate afforded protection against photolabeling. Next, small peptide fragments of [gamma-32P]- 8-azidoATP-photolabeled PPDK were generated by treating the denatured protein with trypsin or alpha-chymotrypsin. A pair of overlapping radiolabeled peptide fragments were separated from the two digests, DMQDMEFTIEEGK (positions 318-330 in trypsin-treated PPDK) and RDMQDMEFTIEEGKL (positions 317-331 in alpha-chymotrypsin-treated PPDK), thus locating one of the positions of covalent modification. Next, catalysis by site-directed mutants generated by amino acid replacement of invariant residues of the PPDK N-terminal domain was tested. K163L, D168A, D170A, D175A, K177L, and G248I PPDK mutants retained substantial catalytic activity while G254I, R337L, and E323L PPDK mutants were inhibited. Comparison of the steady-state kinetic constants measured (at pH 6.8, 25 degrees C) for wild-type PPDK (kcat = 36 s-1, AMPK(m) = 7 microM, PP(i)K(m) = 70 microM, PEPK(m) = 27 microM) to those of R337L PPDK (kcat = 2 s-1, AMPK(m) = 85 microM, PP(i)K(m) = 3700 microM, PEPK(m) = 6 microM) and G254I PPDK (kcat = 0.1 s-1, AMPK(m) = 1300 microM, PP(i)K(m) = 1200 microM, PEPK(m) = 12 microM) indicated impaired catalysis of the nucleotide partial reaction (E.ATP.P(i) --> E-PP.AMP.P(i) --> E-P.AMP.PP(i) in these mutants. The single turnover reactions of [32P]PEP to [32P]E-P.pyruvate catalyzed by the PPDK mutants were shown to be comparable to those of wild-type PPDK. In contrast, the formation of [32P]E-PP/[32P]E-P in single turnover reactions of [beta-32P]ATP/P(i) was significantly inhibited. Finally, the location of the adenosine 5'-diphosphate binding site within the nucleotide binding domain of D-alanine-D-alanine ligase, a structural homologue of the PPDK N-terminal domain [Herzberg, O. (1996) Proc. Natl. Acad. Sci. U.S.A. 93, 2652-2657] indicates, by analogy, the location of the nucleotide binding site in PPDK. Residues G254, R337, and E323 as well as the site of photoaffinity labeling are located within this region.
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PMID:Determination of the nucleotide binding site within Clostridium symbiosum pyruvate phosphate dikinase by photoaffinity labeling, site-directed mutagenesis, and structural analysis. 867 15

The initial phase of mammalian preimplantation development is directed by stored maternal mRNAs and their encoded proteins, yet most of the molecules controlling this process have not been described. We have used differential display analysis of cDNA libraries prepared from unfertilized eggs and preimplantation embryos to isolate three maternal cDNAs that represent novel genes exhibiting different patterns of expression during this developmental period. One of these, Melk, encodes a protein with a kinase catalytic domain and a leucine zipper motif, a new member of the Snf1/AMPK family of kinases. This gene product may play a role in the signal transduction events in the egg and early embryo.
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PMID:New member of the Snf1/AMPK kinase family, Melk, is expressed in the mouse egg and preimplantation embryo. 913 15

C4 photosynthesis is functionally dependent on metabolic interactions between mesophyll and bundle-sheath cells. Although the C4 cycle is biochemically well understood many aspects of the regulation of enzyme activities, gene expression and cell differentiation are elusive. Protein kinases are likely involved in these regulatory processes providing links to hormonal, metabolic and developmental signal transduction pathways. We have identified several protein kinases that are differentially expressed in mesophyll and bundle-sheath cells of the C4 plant Sorghum bicolor. Here we describe the characterization of two putative protein kinases that show high similarity to the SNF1/AMPK family of protein serine/threonine kinases. The mRNA of both kinases accumulates to much higher levels in mesophyll cells than in the bundle-sheath and can also be detected in root tissue. Complementation experiments with a snf1 mutant of Saccharomyces cerevisiae indicate that the S. bicolor protein kinase SNFL1 does not represent a functional homologue of the yeast SNF1 protein kinase.
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PMID:Characterization of a Sorghum bicolor gene family encoding putative protein kinases with a high similarity to the yeast SNF1 protein kinase. 948 48

As muscle goes from a resting state to exercise, the following sequence of events occurs (Figure 5.5): (1) The rise in AMP accompanying contraction allosterically activates AMPK and an AMPK kinase; (2) The activated AMPK kinase phosphorylates and further activates AMPK; (3) The activated AMPK phosphorylates and inactivates ACC; and (4) The consequent decline in malonyl-CoA (product of ACC reaction) relieves inhibition of CPT-1 and allows an increased rate of fatty acid oxidation when fatty acids become available.
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PMID:Malonyl-CoA--regulator of fatty acid oxidation in muscle during exercise. 969 87

To examine the role of AMP-activated protein kinase (AMPK; EC 2.7.1. 109) in the regulation of autophagy, rat hepatocytes were incubated with the AMPK proactivators, adenosine, 5-amino-4-imidazole carboxamide riboside (AICAR), or N6-mercaptopurine riboside. Autophagic activity was inhibited by all three nucleosides, AICAR and N6-mercaptopurine riboside being more potent (IC50 = 0.3 mM) than adenosine (IC50 = 1 mM). 2'-Deoxycoformycin, an adenosine deaminase (EC 3.5.4.4) inhibitor, increased the potency of adenosine 5-fold, suggesting that the effectiveness of adenosine as an autophagy inhibitor was curtailed by its intracellular deamination. 5-Iodotubercidin, an adenosine kinase (EC 2.7.1.20) inhibitor, abolished the effects of all three nucleosides, indicating that they needed to be phosphorylated to inhibit autophagy. A 5-iodotubercidin-suppressible phosphorylation of AICAR to 5-aminoimidazole-4-carboxamide riboside monophosphate was confirmed by chromatographic analysis. AICAR, up to 0.4 mM, had no significant effect on intracellular ATP concentrations. Because activated AMPK phosphorylates and inactivates 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase (EC 1.1.1.88), the rate-limiting enzyme in cholesterol synthesis, the strong inhibition of hepatocytic cholesterol synthesis by all three nucleosides confirmed their ability to activate AMPK under the conditions used. Lovastatin and simvastatin, inhibitors of HMG-CoA reductase, strongly suppressed cholesterol synthesis while having no effect on autophagic activity, suggesting that AMPK inhibits autophagy independently of its effects on HMG-CoA reductase and cholesterol metabolism.
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PMID:Inhibition of hepatocytic autophagy by adenosine, aminoimidazole-4-carboxamide riboside, and N6-mercaptopurine riboside. Evidence for involvement of amp-activated protein kinase. 972 84

Here we report that the beta-adrenergic agonist isoproterenol increases the activity of the stress-activated kinase p38 MAPK over 10-fold in freshly isolated rat epididymal fat cells. Stimulation of the kinase was rapid, sustained for at least 60 min and sensitive to the specific p38 MAPK inhibitor, SB 203580. Half-maximal stimulation of p38 MAPK by isoproterenol occurred at 13 nM isoproterenol. The cell permeable cyclic AMP analogue, chlorophenylthio-cyclic AMP increased p38 MAPK activity to a similar extent to isoproterenol, suggesting that the effect of the beta-adrenergic agonist is mediated via increases in the activity of cyclic-AMP dependent protein kinase. Although it had little or no effect on the activity of c-Jun N-terminal kinase, isoproterenol and a number of other treatments which activated p38 MAPK were found to stimulate AMP-activated protein kinase in fat cells. Activation of AMPK and p38 MAPK were not, however, found to be directly linked.
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PMID:The activation of p38 MAPK by the beta-adrenergic agonist isoproterenol in rat epididymal fat cells. 984 39

We have isolated five cDNA clones (osk1-5) for protein kinases from rice which are related to SNF1 protein kinase of Saccharomyces cerevisiae. Based on the sequence homology, these cDNAs can be classified into two groups, group 1 (osk1) and group 2 (osk2-5). The products of these genes were demonstrated to be functional SNF1-related protein kinases by in vitro and in vivo experiments. Recombinant proteins expressed from both groups of genes were fully active as protein kinases and could phosphorylate SAMS peptide, a substrate specific for the SNF1/AMPK family, as well as themselves (autophosphorylation). Moreover, expression of osk3 cDNA in yeast snf1 mutants restored SNF1 function. Northern blot analyses showed differential expression of these two gene groups; group 1 is expressed uniformly in growing tissues (young roots, young shoots, flowers, and immature seeds), whereas group 2 is strongly expressed in immature seeds. SNF1-related protein kinases have been reported from different plant species, such as rye, barley, Arabidopsis, tobacco, and potato, while the type of gene strongly expressed in immature seeds is known only in cereals such as rye, barley, and, from our findings, in rice. Expression levels of the group 2 genes were further analyzed in seeds during seed maturation. Expression is transiently increased in the early stages of seed maturation and then decreases. The expression peak precedes those of the sbe1 and waxy genes, which are involved in starch synthesis in rice. Taken together, these findings suggest that group 2 OSK genes play important roles in the early stages of endosperm development in rice seeds.
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PMID:Rice has two distinct classes of protein kinase genes related to SNF1 of Saccharomyces cerevisiae, which are differently regulated in early seed development. 987 Jul 4

StubSNF1 is a potato cDNA that encodes a protein kinase similar to the yeast SNF1 gene involved in transcriptional regulation of glucose-repressible genes. The yeast SNF1 functions in a complex with GAL83/SIP1/SIP2 and SNF4 proteins. We have used StubSNF1 as bait in a yeast two-hybrid system to screen for potato cDNAs encoding proteins that bind to StubSNF1. Three overlapping cDNAs, two different in size, were isolated. DNA sequence analysis revealed that they were orthologues of the yeast GAL83/SIP1/SIP2 genes and their mammalian counterparts, AMPK beta-subunits. The direct interaction between the potato proteins StubGAL83 and StubSNF1 was shown by an in vitro binding assay. Southern and Northern hybridisations revealed that StubGAL83 exists in a low copy number in the potato genome and is highly (but organ-specifically) expressed in potato. In contrast, StubSNF1 possesses low transcript levels in each organ, except in flowers where high amounts of StubSNF1 mRNA could be detected. We demonstrate here that StubGAL83 can also interact with yeast SNF4 in a yeast two-hybrid system suggesting that plant SNF1 kinases may function in complexes similar to those detected in yeast and mammals.
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PMID:Potato StubSNF1 interacts with StubGAL83: a plant protein kinase complex with yeast and mammalian counterparts. 1020 10

PCR-coupled cDNA subtraction hybridization was adapted to identify the genes expressed in the adrenocortical tissues from high salt diet-treated rat. A novel cDNA clone, termed salt-inducible kinase (SIK), encoding a polypeptide (776 amino acids) with significant similarity to protein serine/ threonine kinases in the SNF1/AMPK family was isolated. An in vitro kinase assay demonstrated that SIK protein had autophosphorylation activity. Northern blot revealed that SIK mRNA levels were markedly augmented by ACTH treatment both in rat adrenal glands and in Y1 cells. SIK may play an important role in the regulation of adrenocortical functions in response to high plasma salt and ACTH stimulation.
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PMID:Cloning of a novel kinase (SIK) of the SNF1/AMPK family from high salt diet-treated rat adrenal. 1040 90

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