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)

Glycogen synthase isolated from rabbit skeletal muscle as a D-form (synthase D2) is activated by a rat liver cytosolic protein differing from any of the known protein phosphatases (D2 activase). Although reversible by phosphorylation by cyclic AMP-dependent protein kinase, the activation is a result of limited proteolysis by D2 activase, which has been identified as the Ca2+-activated protease.
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PMID:Activation of a D-form of rabbit muscle glycogen synthase by Ca2+-activated protease. 301 53

Glycogen synthase a from skeletal muscle was phosphorylated in vitro and then used as substrate for the two major synthase phosphatases from liver. Synthase phosphorylated by cAMP-dependent protein kinase (1.4-1.7 P/subunit) was preferentially activated by the cytosolic S-component; in contrast, progressive phosphorylation by casein kinase-1 (0.9-6.5 P/subunit) yielded substrates that were always better dephosphorylated and activated by the glycogen-bound G-component. We have previously isolated from dog liver several types of synthase b that differ by their need for the S- and/or G-component for prompt activation. After additional phosphorylation by a mixture of synthase kinases the activation of these enzyme preparations required the presence of both components.
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PMID:Effect of phosphorylation by different protein kinases on the behaviour of glycogen synthase as a substrate for hepatic synthase phosphatases. 302 Nov 45

In rat adipocytes hormone-sensitive lipase is phosphorylated at two sites termed 'regulatory' and 'basal', in the former case by cyclic AMP-dependent protein kinase causing an activation of the lipase [(1984) Proc. Natl. Acad. Sci. USA 81, 3317-3321]. Here, the basal phosphorylation site was found to be phosphorylated by glycogen synthase kinase-4 without any effects on lipase activity, or on the extent of its activation subsequent to phosphorylation of the regulatory site. Glycogen synthase kinase-3, casein kinase-I, and casein kinase-II did not phosphorylate the lipase. Phosphorylase kinase phosphorylated it to a very low extent at a third phosphorylation site not phosphorylated in the fat cell.
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PMID:Phosphorylation of the basal site of hormone-sensitive lipase by glycogen synthase kinase-4. 302 14

Glycogen synthase, the rate-limiting enzyme in glycogen biosynthesis, has been postulated to exist as isozymes in rabbit liver and muscle (Camici, M., Ahmad, Z., DePaoli-Roach, A. A., and Roach, P. J. (1984) J. Biol. Chem. 259, 2466-2473). Both isozymes share a number of properties including multiple phosphorylation of the enzyme subunit. In the present study, we determined the amino acid sequences surrounding phosphorylation sites in the rabbit liver isozyme recognized by cyclic AMP-dependent protein kinase. Two dominant phosphopeptides (P-1 and P-2) were generated from tryptic digestion. Amino acid sequences of the purified peptides were determined by automated Edman degradation using a gas-phase sequenator. The locations of phosphorylated residues were identified by measuring 32Pi release during Edman degradation cycles. The NH2-terminal sequence of peptide P-1 is S-L-S(P)-V-T-S-L-G-G-L-P-Q-W-E-V-E-E-L-P-V-D-D-L-L-L-P-E-V. This sequence exhibits a strong homology to the site 2 region in the NH2 terminus of the muscle isozyme. The NH2-terminal sequence of peptide P-2 is M-Y-P-R-P-S(P)-S(P)-V-P-P-S-P-L-G-S-Q-A. This sequence shows strong homology to the site 3 region in the COOH terminus of the muscle isozyme. However, some interesting sequence differences were revealed in this region. For example, substitution of serine for alanine at position 6 of peptide P-2 created a new phosphorylation site for cyclic AMP-dependent protein kinase. Phosphorylation of the proline/serine-rich site 3 region correlated with inactivation of the liver isozyme and suggests an important role for this segment of the molecule in the regulation of glycogen synthase. No phosphorylation sites corresponding to sites 1a and 1b of the muscle isozyme were detected. In addition, the results provide definitive chemical proof that glycogen synthase from rabbit liver and muscle are isozymes encoded by distinct messages.
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PMID:Liver isozyme of rabbit glycogen synthase. Amino acid sequences surrounding phosphorylation sites recognized by cyclic AMP-dependent protein kinase. 309 16

Glycogen synthase was partially purified from canine brain to about 70% purity. The purified enzyme showed differences from the properties of the skeletal muscle enzyme with respect to molecular weights of the holoenzyme and subunit and phosphopeptide mapping. The multifunctional calmodulin-dependent protein kinase from the brain phosphorylated brain glycogen synthase with concomitant inactivation of the enzyme. Although about 1.3 mol of phosphate/mol subunit was maximally incorporated into glycogen synthase, 0.4 mol of phosphate/mol subunit was sufficient for the maximal inactivation of the enzyme. The results indicate that brain glycogen synthase is regulated in a calmodulin-dependent manner similarly to the skeletal muscle enzyme, but that the brain enzyme is different from the skeletal muscle enzyme.
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PMID:Phosphorylation and inactivation of brain glycogen synthase by a multifunctional calmodulin-dependent protein kinase. 310 Jul 25

Glycogen synthase I was purified from rat skeletal muscle. On sodium dodecyl sulfate polyacrylamide gel electrophoresis, the enzyme migrated as a major band with a subunit Mr of 85,000. The specific activity (24 units/mg protein), activity ratio (the activity in the absence of glucose-6-P divided by the activity in the presence of glucose-6-P X 100) (92 +/- 2) and phosphate content (0.6 mol/mol subunit) were similar to the enzyme from rabbit skeletal muscle. Phosphorylation and inactivation of rat muscle glycogen synthase by casein kinase I, casein kinase II (glycogen synthase kinase 5), glycogen synthase kinase 3 (kinase FA), glycogen synthase kinase 4, phosphorylase b kinase, and the catalytic subunit of cAMP-dependent protein kinase were similar to those reported for rabbit muscle synthase. The greatest decrease in rat muscle glycogen synthase activity was seen after phosphorylation of the synthase by casein kinase I. Phosphopeptide maps of glycogen synthase were obtained by digesting the different 32P-labeled forms of glycogen synthase by CNBr, trypsin, or chymotrypsin. The CNBr peptides were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis and the tryptic and chymotryptic peptides were separated by reversed-phase HPLC. Although the rat and rabbit forms of synthase gave similar peptide maps, there were significant differences between the phosphopeptides derived from the N-terminal region of rabbit glycogen synthase and the corresponding peptides presumably derived from the N-terminal region of rat glycogen synthase. For CNBr peptides, the apparent Mr was 12,500 for rat and 12,000 for the rabbit. The tryptic peptides obtained from the two species had different retention times. A single chymotryptic peptide was produced from rat skeletal muscle glycogen synthase after phosphorylation by phosphorylase kinase whereas two peptides were obtained with the rabbit enzyme. These results indicate that the N-terminus of rabbit glycogen synthase, which contains four phosphorylatable residues (Kuret et al. (1985) Eur. J. Biochem. 151, 39-48), is different from the N-terminus of rat glycogen synthase.
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PMID:Differences between glycogen synthases from rat and rabbit skeletal muscle as indicated by phosphopeptide maps. 310 44

Glycogen synthase was isolated from extracts of mouse diaphragm muscle by immunoprecipitation with specific antibodies raised against the rabbit muscle enzyme. A procedure was developed which permitted phosphorylation of the immunoprecipitated enzyme by several purified protein kinases. Peptide mapping techniques (including reverse-phase HPLC and thin-layer electrophoresis and chromatography) were used to compare tryptic phosphopeptides of the rabbit and mouse muscle enzymes. The results demonstrated a high degree of similarity in the chemical properties of these peptides, suggesting significant homology around the phosphorylation sites in these proteins. Thus, mouse peptides corresponding to the rabbit muscle peptides containing sites 1a, 1b, 2, 3, and 5 were identified, with protein kinase recognition specificities identical to those of the rabbit enzyme. The study indicates significant conservation in the muscle isozymes of glycogen synthase between mouse and rabbit as well as a similar distribution of phosphorylation sites throughout the enzyme subunit.
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PMID:Multiple phosphorylation of mouse muscle glycogen synthase. 311 13

Addition of glucagon (20 nM) to the isolated hepatocytes from 24-h starved male rats results in an inactivation of glycogen synthase. The A0.5 for glucose-6-P is increased 2-fold over the control but the S0.5 for UDP-glucose is not significantly affected. The glucagon-stimulated inactivation of glycogen synthase is also accompanied by a 60-120% increase in the phosphorylation of the synthase. Glycogen synthase labeled with 32P by incubation of the hepatocytes with [32P] PO4(3-) was recovered by immunoprecipitation and the resulting immunoprecipitate was subjected to tryptic digestion. Analysis of the 32P-labeled peptides reveals that the sites corresponding to those phosphorylated by cAMP-dependent protein kinase and glycogen synthase (casein) kinase-1 (Itarte, E., and Huang, K.-P. (1979) J. Biol. Chem. 254, 4052-4057) are rapidly phosphorylated in response to glucagon. These results demonstrate that glucagon not only triggers the activation of cAMP-dependent protein kinase through an increase in the intracellular level of cAMP but also, by an unknown mechanism, activates a Ca2+- and cAMP-independent protein kinase.
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PMID:Glucagon-stimulated phosphorylation of rat liver glycogen synthase in isolated hepatocytes. 391 19

A multifunctional protein kinase, purified from rat liver as ATP-citrate lyase kinase, has been identified as a glycogen synthase kinase. This kinase catalyzed incorporation of up to 1.5 mol of 32PO4/mol of synthase subunit associated with a decrease in the glycogen synthase activity ratio from 0.85 to a value of 0.15. Approximately 65-70% of the 32PO4 was incorporated into site 3 and 30-35% into site 2 as determined by reverse phase high performance liquid chromatography. Release of 32PO4 from the phosphopeptides during automated Edman degradation confirmed the site 3 and 2 assignment. Thermal stability studies established that the phosphorylations of sites 3 and 2 were catalyzed by the same kinase. This multifunctional kinase was distinguished from glycogen synthase kinase-3 on the basis of nucleotide (ATP versus GTP) and protein substrate (glycogen synthase, ATP-citrate lyase, and acetyl-CoA carboxylase) specificities. Since the phosphate contents in glycogen synthase of sites 3 and 2 are altered in diabetes and by insulin administration, the possible involvement of the multifunctional kinase was explored. Glycogen synthase purified from diabetic rabbits was phosphorylated in vitro by this multifunctional kinase at only 10% of the rate compared to synthase purified from control rabbits. Treatment of the diabetics with insulin restored the synthase to a form that was readily phosphorylated in vitro.
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PMID:Phosphorylation of sites 3 and 2 in rabbit skeletal muscle glycogen synthase by a multifunctional protein kinase (ATP-citrate lyase kinase). 393 Apr 92

Glycogen synthase has been purified from the obliquely striated muscle of the swine parasite Ascaris suum. The muscle contains a concentration of glycogen synthase and glycogen which is 20-fold and 15-fold, respectively, greater than rabbit skeletal muscle. The enzyme could not be solubilized with salivary amylase, but partial solubilization was achieved by activation of endogenous phosphorylase. The enzyme was purified to 85-90% homogeneity (specific activity = 4.3 units/mg) by DEAE-cellulose, Sepharose 4B, and glucosamine 6-phosphate chromatography. The purified glycogen synthase was substantially similar to rabbit skeletal muscle enzyme with respect to Mr (gel electrophoresis and gel filtration), pH dependence, aggregation properties, temperature dependence, and kinetic constants for substrates and activators. Glycogen synthase I was converted to glycogen synthase D by the cyclic AMP-dependent protein kinase. The cyclic AMP-dependent protein kinase catalyzed the incorporation of 1.3 mol of phosphate into each glycogen synthase I subunit and the concomitant interconversion to glycogen synthase D. Since glycogen is the sole fuel utilized by this organism during nonfeeding periods of the host, the characterization of this enzyme provides further insight into the regulatory mechanisms which determine glycogen turnover.
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PMID:Comparative purification and characterization of invertebrate muscle glycogen synthase from the porcine parasite Ascaris suum. 393 70

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