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: UMLS:C0027960 (mole)
21,279 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nucleolin (C23), a 110 kDa phosphoprotein, which is mainly found in the nucleolus has been shown to be a physiological substrate for casein kinase II (CKII). Nucleolin was identified and characterized by immunodetection using an anti-nucleolin antibody. Phosphopeptide patterns from nucleolin phosphorylated by purified casein kinase II and of phosphorylated nucleolin which had been isolated from tumor cells grown in the presence of [32P]-o-phosphate, were identical. The partial tryptic digest revealed nine phosphopeptides. Nucleolin isolated from Krebs II mouse ascites cells was phosphorylated by purified casein kinase II with about two moles phosphate per one mole of nucleolin.
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PMID:Nucleolin (C23), a physiological substrate for casein kinase II. 319 Jul 9

A 107 kDa (pp107) casein kinase G (ck-G) substrate has been purified from mouse and beef thyroid cytosol; ck-G was purified from beef thyroid cytosol. Ck-G and pp107 were found to co-elute on DEAE cellulose chromatography at approximately 300 mM NaCl. Ck-G and pp107 were separated by spermine-agarose affinity chromatography; pp107 is eluted with a stepped gradient at 250 mM NaCl and ck-G is eluted at 500 mM NaCl. Ck-G was subsequently purified by casein-agarose and GTP-agarose affinity chromatography. The 107 kDa protein was purified using heparin-agarose affinity chromatography. Phosphorylation of purified pp107 by ck-G was stimulated by spermine (ED50 = 0.2 mM) and inhibited by low concentrations of heparin (0.1-5 micrograms/ml). The Km and Vmax for the reaction were 1.46 microM and 32.2 nmoles P transferred/20 min/mg protein, respectively; 1 mole pp107 incorporated 0.81 mole phosphorus. pp107 was found to be an acidic substrate with a pI of 3.87 and was absorbed to wheat-germ agglutinin-agarose. The specificity of pp107 phosphorylation was studied using diacylglycerol-activated calcium/phospholipid-dependent protein kinase C, calcium-activated calmodulin-dependent protein kinase, and the catalytic subunit of cAMP-dependent protein kinase A. Phosphorylation of pp107 by the other protein kinases tested never exceeded 4% of that of ck-G. Our data show that pp107 is an acidic glycoprotein which may serve as a high-affinity and specific substrate for ck-G.
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PMID:Purification of a 107 kilodalton (kDa) casein kinase G substrate from thyroid cytosol. 320 Feb 52

Protein kinase C (PKC), a Ca2+-and phospholipid-dependent protein kinase, is now known to be regulated by sn-1,2-diacylglycerol (DAG) second messengers and is the intracellular phorbol ester receptor. Models of transmembrane signaling events that elicit DAG production include receptor-mediated G protein-dependent activation of phospholipase C. Several products of oncogenes resemble transmembrane signaling elements; critical second-messenger levels may, therefore, be altered by genetic defects in these elements. We found that normal rat kidney cells transformed with ras and sis contained elevated levels of DAG, and cells transformed with temperature-sensitive K-ras had elevated DAG levels at the permissive but not the restrictive temperature. To study the mechanism of PKC activation by phosphatidylserine (PS), DAG, and Ca2+, we used mixed micelles of Triton X-100, and analogous methods to examine PS dependence on [3H]phorbol-dibutyrate binding and activation. PKC activation occurs at physiological mole fractions of PS and DAG and does not require a bilayer. Activation by PS, which was cooperative, required four or more molecules. Activation by DAG was not cooperative and one molecule was sufficient. Monomeric PKC is the active species. Our activation model suggests that PKC binds to Ca2+ and four PS carboxyl groups to form a surface-bound, "primed" but inactive complex. DAG binds to the complex of the four PS carboxyl groups, the Ca2+, and the PKC through three bonds, two to ester carbonyls and one to the 3-hydroxyl moiety. Collectively, these may cause a conformational change and activate the enzyme.
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PMID:Mechanism of regulation of protein kinase C by lipid second messengers. 332 5

Bovine albumin was phosphorylated by both cAMP-dependent protein kinase and casein kinase I to a significant extent. Other albumins were also tested and it was found that the extent of phosphorylation varied with the species of origin of the albumin, but was between 1 and 3 mol phosphate per mole albumin for the cAMP-dependent protein kinase-catalyzed reactions. The phosphorylation occurred at and above pH 7.5 and required the presence of thiol reagents. Phosphoamino acid analyses of bovine albumin showed that it was phosphorylated on at least two serine residues. The phosphorylation could not be demonstrated in vivo.
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PMID:In vitro phosphorylation of serum albumin by two protein kinases: a potential pitfall in protein phosphorylation reactions. 346 Mar 68

Human fibrinogen was phosphorylated by casein kinase TS. The [32P]phosphate incorporated varied between 0.5 and 1 mol of phosphate per mole of fibrinogen. The phosphate was localized to Ser523 and Ser590 and serine and threonine residues between amino acids 259 and 268 in the A alpha-chain. In addition, Thr416 and Ser420 were phosphorylated in the gamma'-chain, which is a variant of the gamma-chain, constituting 7-10% of the gamma-chain population. The functional significance of casein kinase TS-induced phosphorylation of fibrinogen remains unknown; however, a slight but consistent increase of the turbidity in a gelation assay was observed for phosphorylated compared to unphosphorylated fibrinogen.
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PMID:Phosphorylation in vitro of human fibrinogen with casein kinase TS and characterization of phosphorylated sites. 347 99

The 31P NMR method was first applied to characterize in vivo phosphorylation of H1 and H5 in calf thymus and chicken erythrocytes as well as in vitro phosphorylation of H1 and H5 by cAMP-dependent protein kinase. The amino acid residues phosphorylated in vivo in the histones were exclusively serine residues, and the mole fraction of phosphoserine was estimated to be 0.34 and 0.27 per molecule of calf thymus H1 and chicken erythrocyte H5, respectively. Interestingly, chicken erythrocyte H1 was not phosphorylated in vivo. Three H1 subtypes from calf thymus H1 varied in the 31P NMR spectra, and the bisected fragments of calf thymus H1 and chicken erythrocyte H5 exhibited characteristic spectral patterns, indicating that there are considerable diversities of the degree of phosphorylation and phosphorylation sites in very-lysine-rich histones. Furthermore, it was found that the microenvironment of phosphoserine residues phosphorylated in vivo in calf thymus H1 and chicken erythrocyte H5 is quite distinct from that of phosphoserine residues phosphorylated in vitro by bovine heart cAMP-dependent protein kinase.
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PMID:In vivo phosphorylation of histones H1 and H5 in calf thymus and chicken erythrocyte as studied by 31P nuclear magnetic resonance spectroscopy. 366 74

The phosphorylation of protein 4.1 by the membrane kinase and casein kinase A has been investigated. Each of these kinases catalyzed the incorporation of 2 mol of phosphate per mole of protein 4.1. The presence of both kinases in the reaction mixture did not lead to an increase in the incorporation of phosphates into the protein. An analysis of the acid hydrolysis products of the 32P-labeled protein 4.1 indicated that the radioactivities were distributed between phosphothreonine and phosphoserine in a ratio of about 2 to 1. The effects of phosphorylation on the binding of protein 4.1 to spectrin were investigated by using sucrose density gradient centrifugation. The affinity of protein 4.1 for spectrin was reduced about 5-fold, from a KD of 2 X 10(-6) M to a KD of 9.4 X 10(-6) M, by phosphorylation. The phosphorylation of spectrin, on the other hand, appeared to increase slightly its affinity for protein 4.1. The results suggest that phosphorylation may lead to a relaxation of the cytoskeletal network and the formation of a more flexible membrane structure that is important to red cell function.
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PMID:Phosphorylation reduces the affinity of protein 4.1 for spectrin. 370 8

The phospholipid, sn-1,2-diacylglycerol, and calcium dependencies of rat brain protein kinase C were investigated with a mixed micellar assay (Hannun, Y., Loomis, C., and Bell, R.M. (1985) J. Biol. Chem. 260, 10039-10043). Protein kinase C activity was independent of the number of Triton X-100, phosphatidylserine (PS), and sn-1,2-dioleoylglycerol (diC18:1) mixed micelles. Activation was strongly dependent on the mole per cent of PS and diC18:1. Activity of protein kinase C was dependent on PS, diC18:1, and calcium in mixed micelles prepared from detergents other than Triton X-100. This is consistent with the micelle providing an inert surface into which the lipid cofactors partition. Molecular sieve chromatography provided direct evidence for the homogeneity of Triton X-100, PS, and diC18:1 mixed micelles. Mixing studies and surface dilution studies indicated that PS and diC18:1 rapidly equilibrate among the mixed micelles. At saturating calcium, the diC18:1 dependence was strongly dependent on the mole per cent PS present. At 10 mol % PS, 0.25 mol % diC18:1 gave maximal activity whereas 6 mol % PS and 6 mol % diC18:1 did not give maximal activity. diC18:1 dependencies were hyperbolic at all PS levels tested. The data support the conclusion that a single molecule of diC18:1/micelle is sufficient to activate monomeric protein kinase C. The mole per cent PS required for maximal activation was reduced markedly as the mole per cent diC18:1 increased. Under all conditions tested, the PS dependence of protein kinase C activation lagged until greater than 3 mol % PS was present. Then activation occurred in a cooperative manner with Hill numbers near 4. These data indicate that 4 or more molecules of PS are required to activate monomeric protein kinase C. PS was the most effective of all the phospholipids tested in the mixed micelle assay. diC18:1 was found to modulate the amount of calcium required for maximal activity. As the level of Ca2+ increased, the mole per cent PS required reached a limiting value of 3 mol %. A number of sn-1,2-diacylglycerols containing short chain fatty acids activated protein kinase C in a saturable manner in mixed micelles. The data are discussed in relation to a model for protein kinase activation.
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PMID:Protein kinase C activation in mixed micelles. Mechanistic implications of phospholipid, diacylglycerol, and calcium interdependencies. 371 Oct 83

A heat-stable microtubule-associated protein (MAP) with molecular weight of 190,000, termed 190-kD MAP, was purified from bovine adrenal cortex. This MAP showed the same level of ability to promote tubulin polymerization as did MAP2 and tau from mammalian brains. Relatively high amounts of 190-kD MAP could bind to microtubules reconstituted in the presence of taxol. At maximum 1 mol of 190-kD MAP could bind to 2.3 mol of tubulin. 190-kD MAP was phosphorylated by a cAMP-dependent protein kinase prepared from sea urchin spermatozoa and by protein kinase(s) present in the microtubule protein fraction prepared from mammalian brains. The maximal numbers of incorporated phosphate were approximately 0.2 and approximately 0.4 mol per mole of 190-kD MAP, respectively. These values were lower than that of MAP2, which could be heavily phosphorylated by the endogenous protein kinase(s) up to 5 mol per mole of MAP2 under the same assay condition. 190-kD MAP had no effects on the low-shear viscosity of actin and did not induce an increase in turbidity of the actin solution. It was also revealed that 190-kD MAP does not cosediment with actin filaments. These data clearly show that, distinct from MAP2 and tau, this MAP does not interact with actin. Electron microscopic observation of the rotary-shadowed images of 190-kD MAP showed the molecular shape to be a long, thin, flexible rod with a contour length of approximately 100 nm. Quick-freeze, deep-etch replicas of the microtubules reconstituted from 190-kD MAP and brain tubulin revealed many cross-bridges connecting microtubules with each other.
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PMID:Purification and characterization of a 190-kD microtubule-associated protein from bovine adrenal cortex. 378 89

Somatostatin binding and the ability to inhibit cyclic AMP stimulated protein kinase were investigated utilizing isolated pancreatic islets, anterior pituitary plasma membranes, adipocytes, erythrocyte ghosts, hepatic plasma membranes, and anterior pituitary secretion vesicles. Three types of response were observed. With type I response, somatostatin bound specifically to pancreatic islets and anterior pituitary secretion vesicles and inhibited cyclic AMP stimulated protein kinase. In type II response, adipocytes and anterior pituitary plasma membranes exhibited somatostatin binding but no effect of the ligand on the kinase. In erythrocyte membrane ghosts and hepatic plasma membranes, there was neither specific somatostatin binding nor protein kinase inhibition (type III response). The absence of somatostatin binding in erythrocytes or hepatic plasma membranes cannot be explained by degradation of the ligand per se. Secretory vesicles isolated from the anterior pituitary gland bind somatostatin with an average affinity which exceeds that observed in plasma membrane (for pituitary secretory vesicles Kd1 = 8.5 X 10(-8)M, Kd2 = 5.2 X 10(-7)M; for pituitary membranes Kd1 = 1.9 X 10(-8)M, Kd2 = 8.1 X 10(-7)M). The molar concentration of high affinity binding sites (Ro) for plasma membranes was 6.9 X 10(-10)M; for secretory vesicles 3.6 X 10(-9)M. Calculated in terms of somatostatin binding per U 5'nucleotidase activity, the binding for plasma membranes becomes 8.4 X 10(-14) mole/U 5'nucleotidase; secretory vesicles 4.4 X 10(-13) mole/U 5'nucleotidase. Thus, secretory vesicles are fivefold richer in high affinity receptor sites than plasma membranes. It is suggested that in order for somatostatin to act, both a receptor and an effector unit must be present. In the case of tissues secreting polypeptide hormones by granule extrusion, the secretory vesicle may possess both the receptor and the effector units. It is postulated that during the process of fusion of the plasma and secretory vesicle membranes, a high affinity binding site for somatostatin is incorporated into the plasma membrane, thereby allowing somatostatin to act at a specific locus in the cell in inhibiting hormone release.
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PMID:The relationship between somatostatin binding and cyclic AMP-stimulated protein kinase inhibition. 610 15


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