UNIPROT:P06889 - FACTA Search

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Query: UNIPROT:P06889 (Mol)
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A heat-and acid-stable protein inhibitor of phosphorylase phosphatase is present in a highly purified preparation of protein inhibitor of cyclic AMP-dependent protein kinase from rabbit skeletal muscle. Although these two inhibitors have strikingly similar properties to each other, such as sensitivity to trypsin and behavior on gel permeation chromatography, they can be separated by polyacrylamide disc gel electrophoresis. This indicates that the phosphatase-inhibitory and kinase-inhibitory activities reside with different protein species. The inhibition of both the enzymes is not altered by incubating the inhibitor preparation with a general phosphoprotein phosphatase, with phosvitin kinase, or with cyclic AMP-dependent protein kinase. Inhibition of phosphorylase phosphatase is of a non-competitive type supporting the idea that the phosphatase inhibitor is not an alternative substrate for the enzyme. Inhibition of phosphatase activity is selective in that it does no occur when phosphorylated histone or phosphorylated protamine are used as substrates.
Mol Cell Biochem 1977 Apr 12
PMID:Protein inhibitors of phosphorylase phosphatase and cyclic AMP-dependent protein kinase from rabbit skeleta muscle. 19 98

Thyroxine control of cAMP-independent histone and casein phosphokinase activities was studied in thyroidectomized rats treated with thyroxine. All activities were evaluated in the presence of a thermostable inhibitor of cAMP-dependent enzymes. Cytosol enzymes can be resolved by sucrose gradient ultracentrifugation into three peaks of histone kinase activity (3.2S, 5S and 7.2S) and two peaks of casein kinases (3.6S and 7.1S). Neither thyroidectomy nor subsequent treatment of operated animals with thyroxine modifies the total histone kinase activity estimated, either in total cytosol or after its fractionation by the sucrose gradient ultracentrifugation. The activity ratios of different peaks were, however, changed. Casein kinase activity was significantly decreased after thyroidectomy (about 50%). Subsequent treatment with thyroxine restored this activity to its initial value. Sucrose gradient ultracentrifugation analysis showed that thyroxine action on the casein kinase activity is very specific. Only molecules that sediment in the 9S region were significantly stimulated by the hormone. Cortisol action on the casein kinase activity was studied in adrenalectomized animals treated with hormone for 24 h. Cortisol decreases the total casein kinase activity by about 30%. Sucrose gradient ultracentrifugation analysis showed that the population of molecules sedimenting at about 9S was the most sensitive to cortisol. The above data show that both thyroxine and cortisol control, in a selective way, the activities of cAMP-independent protein kinases. The same kinase molecules can be under double control by two different hormones that have opposite effects.
Mol Cell Endocrinol 1978 Dec
PMID:Hormonal regulation of cAMP-independent protein phosphokinase activities: thyroxine and cortisol control of enzymes from rat liver cytosol. 21 94

Information has been collected to stimulate interest regarding the nature and the possible role of mRNP protein phosphorylation in a cytoplasmic control mechanism for protein synthesis. It does not imply a direct relationship between mRNP protein and initiation factors. These proteins have some properties in common (e.g. molecular weight, phosphorylation, protein kinase, mRNA binding activity). We emphasize that some free mRNP may be translatable after modification of their protein by interference factors belonging to other cellular compartments. Thus, some mRNP proteins might possess initiation factor or protein synthetic activity if we accept Spirin's theory, i.e., "Eukaryotic messenger RNA and informosomes omnia mea mecum porto.
Mol Biol Rep 1979 May 31
PMID:mRNP proteins, initiation factors and phosphorylation. 22 27

Two cAMP-dependent protein kinase activities can be separated from rat thyroid cytosol. Their elution properties during the gel chromatography, as well as their sedimentation coefficients after sucrose-gradient ultracentrifugation and their capacity to dissociate in the presence of histones, suggest they are like the Type I and Type II protein kinases described in many other tissues. The sensitivity of the two types of kinases to thyroxine treatment is different. The activity of Type I is not changed during the first 5 days of treatment. Thereafter, it decreased by about 50% and is maintained at that level for up to one month. The activity of the Type II enzyme decreased rapidly by about 30-40% already on the second day of treatment, and after 10 days it reached 50% of the initial level. This differential reactivity of the two types of enzymes to the thyroxine treatment leads to profound modifications in their relative activities between the second and the fifth day of treatment. The significance of these results and the possible role of the two types of kinases in the control of different steps of iodine metabolism have been discussed.
Mol Cell Endocrinol 1979 May
PMID:Hormonal regulation of thyroidal protein phosphokinase activities. II. Differential sensitivity of type I and type II cAMP-dependent enzymes to the treatment of rats with thyroxine. 22

Cyclic AMP-dependent protein kinase has been well established to be composed of catalytic and regulatory subunits, and cyclic AMP acts to dissociate these subunits to exhibit full enzymatic activity. In contrast, cyclic GMP-dependent protein kinase does not possess such a subunit structure and is activated by cyclic GMP simply in an allosteric manner. In addition to cyclic AMP-dependent and cyclic GMP-dependent protein kinases, another species of multifunctional protein kinase has been found in many mammalian tissues. This protein kinase is entirely independent of cyclic nucleotides and activated by lower concentrations of Ca2+ in the presence of a membrane-associated factor. This factor has been identified as phospholipids; in fact, phosphatidylinositol and phosphatidylserine are active in this role, whereas lecithin and sphingomyelin are unable to activate the enzyme. Thus, the three species of protein kinases mentioned above are activated in different manners. Nevertheless, these enzymes show very similar substrate specificities and phosphorylate the same specific seryl residues of histone fractions. In addition, all enzymes have abilities to activate and inactivate muscle phosphorylase kinase and glycogen synthetase, respectively, although the relative rates of reactions towards various substrates are markedly different. The Ca2+-dependent protein kinase seems to be associated with membranous components, whereas cyclic GMP-dependent protein kinase appears to be related to certain subcellular organella such as nucleus. Suggestive evidence is available implying that the cyclic AMP-, cyclic GMP- and Ca2+-activated three sets of protein kinase systems may play each specific physiological roles presumably owing to their own subcellular compartments.
Mol Cell Biochem 1979 Feb 09
PMID:Regulatory and functional compartment of three multifunctional protein kinase systems. 22 57

Histone kinase activity was purified from human polymorphonuclear leukocytes by ammonium sulphate precipitation of a 180 000 x g supernatant, followed by DEAE-cellulose chromatography and gelfiltration. On DEAE-cellulose cAMP dependent kinase activity eluted in two peaks, I and III, at 1.2 mmho and 6.5 mmho, respectively. Catalytic subunit (C) from both peaks had Mr 33 000, 3.0S. Regulatory subunit (R) from peak I and III both had Mr 33 000 upon gelfiltration, but sedimented at 2.8--3.0S and 3.0--3.2S, respectively. R2 and R4 subunits were identified. The R-C dimer from peak I and III sedimented at 4.8S and (4.8)--5.1S, respectively. The holoenzyme from peak I had Mr 165 000, 6.7S, which suggest a R2C2 structure, while that of peak III sedimented at 6.7S, but eluted at Mr 330 000 (2R2C2) by gelfiltration. The Kmapp for peak I and III enzymes were, respectively: histone IIA 0.5 mg/ml (both forms), ATP 18 microM and 23 microM, and cAMP 5 X 10(-8) M and 6.3 x 10(-8) M. Both enzymes had pH optimum 6.7--6.9 and were equally sensitive to Ca2+, temperature and protein kinase inhibitor. The substrate specificity was histone VS greater than histone IIA = histone VIS greater than casein greater than phosvitin. Peak I enzyme, but not peak III enzyme, was dissociated by histone and high ionic strength and reassociation of R and C subunits were facilitated by ATP-Mg. It is concluded that peak I and III enzymes represent type I and II cAMP dependent protein kinases, respectively. Type I comprises 20--30% of cAMP dependent protein kinase activity and is absent from the 180 000 x g supernatant of gently disrupted cells. Purified catalytic subunit had Kmapp (ATP) 20 microM with rabbit muscle glycogen synthease I as substrates. Synthase I from rabbit muscle and human leukocytes were phosphorylated by catalytic subunit to synthase D (ratio of independence less than 0.07). cAMP independent histone kinase activity eluted in one peak (Peak II) at3 mmho. The enzymatic activity sedimented at 3.4S and eluted from gelfiltration with Mr 78 000. Kmapp for ATP was 78 microM and for histone IIA 0.5 mg/ml. The enzyme was sensitive to temperature, but less sensitive than cAMP dependent protein kinase to Ca2+, and insensitive to protein kinase inhibitor. The substrate specificity was histone IIA greater than histone VS = histone VIS, while casein and phosvitin were poor substrates. Glycogen synthase I was not phosphorylated. The cAMP independent histone kinase activity comprised 15% of the total histone kinase activity in a crude homogenate of leukocytes. Its physiological substrate is unknown.
Mol Cell Biochem 1979 Jul 15
PMID:Purification and properies of cAMP dependent and independent histone kinases from human leukocytes. 22 66

In a previous report we have shown that insulin increases the phosphorylation of an endogenous protein of mol. wt. 16 000 daltons in sarcolemma membranes. In the present work we have demonstrated that phosphorylations of exogenous histones by the sarcolemma membranes are also increased by insulin. These results indicate that insulin activates a cyclic-AMP-independent protein kinase in sarcolemma membranes. The stimulatory effect of insulin on protein phosphorylations is increased by GTP and its analogue GMP-P(NH)P. The insulin effect was increased 3--4-fold by micromolar concentrations of GTP. The effect by the analogue GMP-P(NH)P was somewhat less. In the absence of insulin guanosine nucleotides had no effect on phosphorylation of the proteins. The results suggest that GTP is a modulator in the activation of a sarcolemma membrane protein kinase by insulin.
Mol Cell Endocrinol 1979 Oct
PMID:The effect of insulin and guanosine nucleotides on protein phosphorylations by sarcolemma membranes from skeletal muscle. 22 62

The protein synthesis initiation factor eIF-3 (a multicomponent protein complex) was labelled with 32P by phosphorylation with a protein kinase present in a partially purified 'hemin-controlled repressor' preparation. The interaction of the labelled factor with the 40 S ribosomal subunit during the course of initiation was followed. It binds to the 40 S subunit in the absence of other initiation factors and inhibits the Mg2+-dependent reassociation of the 40 S with the 60 S ribosomal subunit. It stimulates the binding of the ternary complex (eIF-2, GTP, Met-tRNAf) to the 40 S subunit, and earlier work (Trachsel, H., Schreier, M.H., Erni, B. and Staehelin, T. (1977) J. Mol. Biol. 116, 745-767) also showed it to be essential for the subsequent binding of mRNA. The factor is released from the 40 S initiation complex during the 60 S subunit joining reaction.
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PMID:Initiation of mammalian protein synthesis. The multiple functions of the initiation factor eIF-3. 51 82

A protein kinase specific for casein and acidic ribosomal proteins was isolated and partly characterized. It was found that the enzyme utilizes GTP and ATP as phosphoryl donors. Its affinity for ATP was considerably higher than for GTP with the km values of 7.6 X 10(-6)M and 5.5 X 10(-5)M, respectively. Two-dimensional acrylamide gel electrophoresis revealed the phosphorylation of the same ribosomal proteins with either of the [gamma-32P] nucleotides used. It was also shown that one acidic protein (S1 or S2) of 40 S and two acidic proteins (L2 and L3) of 60 S ribosomal subunits were predominantly phosphorylated in vitro. The phosphorylated proteins: L2 and L3 seem to correspond to the proteins of L7 and L12 of E. coli ribosomes. The isolated kinase phosphorylated several basic ribosomal proteins though to a lower extent than the acidic ones.
Mol Biol Rep 1976 Nov
PMID:Ribosomal protein as substrate for a GTP-dependent protein kinase from yeast. 79 85

At least two protein kinase activities are bound to the rat liver mitochondrial membranes. Both activities are found to phosphorylate, besides endogenous proteins tightly bound to the membrane structures, also exogenous phosphoproteins such as casein and phosvitin. However one is able to phosphorylate both casein-bound serine and threonine residues, while the other is phosphorylating almost only serine residues.
Mol Cell Biochem 1976 Nov 30
PMID:Phosphorylation of casein by mitochondrial protein kinase(s). 100 99

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