Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The effect of dopamine on hemodynamics (CO, AoPm, TPR, SV, SW, CVP, PAPm, PAEDP), microcirculation (MBF, PS-product) and renal function (VU, CKI, CNa, CK, Cosm, TcH2O) was studied in 8 patients with hypnotic drug poisoning. With increasing doses of dopamine, cardiac output and heart rate increased and the peripheral resistance decreased. An augmentation of stroke volume and left ventricular stroke work was observed in the low dose range only (200--400 mug/min). With increasing doses, central venous pressure as well as mean pulmonary artery pressure and enddiastolic pulmonary artery pressure decreased. No vasoconstriction was found in muscle tissue vessels even with large doses of dopamine. This is explained by the vasoplegic properties of hypnotic drugs. In circulatory shock associated with hypnotic drug poisoning, dopamine develops only minor pressure effects in contrast to its action in circulatory shock of cardiogenic or septic shock origin. High doses of dopamine result in a significant increase in heart rate, without concomitant increase in stroke volume and blood pressure. Therefore the dosage of dopamine should not exceed 400 mug/min in these cases. A combination with small doses of norepinephrine (10--20 mug/min) seems to be more effective. Renal function tests showed variable expansion of urine volume, glomerular filtration rate, and clearances of sodium, potassium and osmotic substances. Therapy with dopamine might increase the renal elimination rate of hypnotic drugs.
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PMID:[The influence of dopamine on hemodynamics, microcirculation and renal function in patients with hypnotic drug intoxication (author's transl)]. 94 Feb 91

Two cDNAs encoding casein kinase-1 have been isolated from a yeast cDNA library and termed CKI1 and CKI2. Each clone encodes a protein of approximately 62,000 Da containing a highly conserved protein kinase domain surrounded by variable amino- and carboxy-terminal domains. The proteins also contain two conserved carboxy-terminal cysteine residues that comprise a consensus sequence for prenylation. Consistent with this posttranslational modification, cell fractionation experiments demonstrate that intact CKI1 is found exclusively in yeast cell membranes. Gene disruption experiments reveal that, although neither of the two CKI genes is essential by itself, at least one CKI gene is required for yeast cell viability. Spores deficient in both CKI1 and CKI2 fail to grow and, therefore, either fail to germinate or arrest as small cells before bud emergence. These results suggest that casein kinase-1, which is distributed widely in nature, plays a pivotal role in eukaryotic cell regulation.
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PMID:Two genes in Saccharomyces cerevisiae encode a membrane-bound form of casein kinase-1. 162 30

Phosphophoryns are the major non-collagenous proteins of the mineralized matrix of rat incisor dentin. Nearly half the phosphophoryn residues are serines, and 85-90% of these are phosphorylated. Since phosphorylation may be important for phosphophoryn function, it was of interest to identify the kinase(s) responsible for catalyzing their phosphophorylation. Rat osteosarcoma (ROS) 17/2.8 osteoblast-like cells were selected as the enzyme source. Native rat incisor phosphophoryns (RIPP-I, II, III) were not substrates for any of the ROS 17/2.8 messenger-dependent kinases but were phosphorylated by membrane-associated endogenous messenger-independent kinases. These were resolved chromatographically and identified as casein kinase (CK) I and II by elution properties and immunoblotting with a CKII antibody. The CKI preferentially used RIPP-III as substrate, while CKII preferred RIPP-I and II. Heparin at 100 and 500 ng/assay and NaCl at 0.25-0.4 M inhibited phosphorylation of the RIPP by CKI and CKII in parallel. At 10 mM spermine, phosphorylation of RIPP-I and II by CKII, and of RIPP-III by CKI were inhibited, but phosphorylation of RIPP-III by CKII was enhanced. Purified sea star oocyte CKII demonstrated the same substrate specificity and spermine concentration shift as the ROS 17/2.8 CKII. These data show that osteoblast-like cells are a rich source of membrane-bound CKI and CKII activity. The different patterns of phosphorylation of RIPP-I, II, and III further show that they are distinct synthetic products of the odontoblast.
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PMID:The in vitro phosphorylation of the native rat incisor dentin phosphophoryns. 164 38

A cytoskeletal extract of pure axoplasm, highly enriched with neurofilaments (ANF), was prepared from the giant axon of the squid. This ANF preparation also contained potent kinase activities which phosphorylated the Mr greater than 400,000 (high molecular weight) and Mr 220,000 squid neurofilament protein subunits. High salt (1 M) extraction of this ANF preparation solubilized most of the neurofilament proteins and kinase activities and gel filtration on an AcA 44 column separated these two components. The neurofilaments eluted in the void volume of the column while the kinase activities eluted in the 17-44-kDa range of the column. Two major kinase activities were measured in this peak of activity. One of these strongly phosphorylated the phosphate acceptor peptide Leu-Arg-Arg-Ala-Ser-Leu-Gly (Kemptide) and was completely inhibited by the selective inhibitor of cAMP-dependent kinase Thr-Thr-Tyr-Ala-Asp-Phe-Ile-Ala-Ser-Gly-Arg-Thr-Gly-Arg-Arg-Asn-Ala-Ile- NH2 (Wiptide). Since addition of cAMP did not stimulate activity, this suggested that this kinase was a free catalytic subunit of cAMP-dependent kinase associated with the neurofilaments. The second kinase activity most effectively phosphorylated alpha-casein, and this activity was not affected by Wiptide. The alpha-casein phosphorylating activity (ANF kinase) was the principal activity responsible for neurofilament protein phosphorylation, and was not inhibited by various inhibitors against second messenger regulated kinases, suggesting it was related to the casein kinase family. Four lines of evidence indicate ANF kinase was similar to casein kinase I. These were: 1) the apparent molecular weight determined by gel filtration and the chromatographic elution profile on phosphocellulose column corresponded to casein kinase I; 2) heparin, an inhibitor of casein kinase II at 2-5 micrograms/ml, stimulated both ANF kinase and purified casein kinase I at these concentrations, while CKI-7, a relatively selective inhibitor of casein kinase I, inhibited ANF kinase in a comparable dose-response fashion; 3) purified casein kinase I strongly phosphorylated both ANF protein subunits (like ANF kinase) whereas casein kinase II was relatively ineffective; and 4) tryptic peptide maps of the HMW and Mr 220,000 neurofilament proteins after phosphorylation by ANF kinase or purified casein kinase I showed similar 32P-peptide patterns.
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PMID:Principal neurofilament-associated protein kinase in squid axoplasm is related to casein kinase I. 200 43

Choline kinase, the first enzyme in the CDP-choline pathway for phosphatidylcholine biosynthesis, was purified 26,000-fold from rat liver to a specific activity of 143,000 nmol.min-1.mg-1 protein. The subunit molecular mass was 47 kDa by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, while the apparent native molecular mass was 160 kDa by size exclusion chromatography, suggesting a tetrameric structure. Two peaks of choline kinase activity were obtained by chromatofocusing. These isoforms eluted at pH 4.7 (CKI) and 4.5 (CKII). CKII appeared to be homogeneous by sodium dodecyl sulfate gel electrophoresis. Peptide mapping of two isoforms indicated a high degree of similarity, although there were peptides not common to both. Ethanolamine kinase activity copurified with both isoforms. The ratio of choline to ethanolamine kinase activity was 3.7 +/- 0.7 throughout the purification procedure. Choline and ethanolamine were mutually competitive inhibitors. The respective Km values, 0.013 and 1.2 mM, were similar to the Ki values of 0.014 and 2.2 mM. An antibody raised against CKII immunoprecipitated both choline and ethanolamine kinase activities from liver cytosol at the same titer. These data suggest that both activities reside on the same protein and occur at the same active site. Similarly, both activities were immunoprecipitated from brain, lung, and kidney cytosols. Western blot analysis showed both purified liver isoforms, as well as brain, lung and kidney enzymes, to have a molecular mass of 47 kDa.
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PMID:Purification and characterization of choline/ethanolamine kinase from rat liver. 215 25

An anti-yeast CKI antiserum was shown to cross-react with CKI isolated from Krebs II mouse ascites tumour cells. The mammalian CKI showed virtually the same molecular mass (app. 45 kDa) as the yeast enzyme. By immunofluorescence it could be shown that CKI is preferably located in the nucleolus.
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PMID:Subcellular localization of casein kinase I. 218 12

Using a mutant defective in choline kinase (Hosaka, K., and Yamashita, S. (1980) J. Bacteriol. 143, 176-181; Hosaka, K., and Yamashita, S. (1987) Eur. J. Biochem. 162, 7-13), the structural gene (CKI) for choline kinase of the yeast, Saccharomyces cerevisiae, was isolated by means of genetic complementation. Within its sequence there was an open reading frame capable of encoding 582 amino acids with a calculated molecular weight of 66,316. The primary translation product contained a segment closely related to the phosphotransferase consensus sequence (Brenner, S. (1987) Nature 329, 21). A yeast transformant carrying CKI in multiple copies exhibited very high choline kinase activity as well as ethanolamine kinase activity. In-frame insertion of the CKI coding frame into lacZ' on the pUC19 vector led to efficient expression of choline kinase in Escherichia coli cells in the presence of a lac inducer, isopropylthiogalactoside, proving that CKI is the structural gene for choline kinase. Concomitantly, ethanolamine kinase activity was also expressed. When the CKI locus in the wild-type yeast genome was inactivated by its replacement with the in vitro disrupted cki gene, the yeast cells lost virtually all of the choline kinase activity and most of the ethanolamine kinase activity. Thus, it is concluded that choline kinase is mono-cistronic and that the ethanolamine kinase activity is a second activity of choline kinase in the yeast.
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PMID:Cloning and characterization of the yeast CKI gene encoding choline kinase and its expression in Escherichia coli. 253 98

When screening various isoquinolinesulfonamide compounds which we synthesized, CKI-7, N-(2-amino-ethyl)-5-chloroisoquinoline-8-sulfonamide, was found to have a potent inhibitory action against casein kinase I and a much weaker effect on casein kinase II and other protein kinases. Kinetic analysis indicated that CKI-7 inhibited casein kinase I competitively with respect to ATP and that the Ki values were 8.5 microM for casein kinase I and 70 microM for casein kinase II. An affinity chromatography absorbent was synthesized by coupling CKI-8 (1-(5-chloroisoquinoline-8-sulfonyl], a derivative of CKI-7, to cyanogen bromide-activated Sepharose 4B. Partially purified casein kinase I from bovine testis was subjected to affinity chromatography. Analysis of the purified casein kinase I by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate revealed a single band with molecular weight 37,000. These newly synthesized compounds, CKI-7 and CKI-8, should serve as useful tools for elucidating the biological significance of casein kinase I-mediated reactions.
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PMID:A newly synthesized selective casein kinase I inhibitor, N-(2-aminoethyl)-5-chloroisoquinoline-8-sulfonamide, and affinity purification of casein kinase I from bovine testis. 292 75

Cyclic nucleotide independent protein kinases preferring casein as in vitro substrates were resolved into four distinct species. Only one of the enzymes (CKII) was retained by DEAE-cellulose, whereas the three other enzymes (CKI-1, CKI-2, and CKI-3) were absorbed to CM-Sephadex, eluted with 250 and 600 mM NaCl, and fractionated by heparin-Sepharose chromatography. The casein kinase CKI-3 eluting at the highest NaCl concentration (550 mM) was purified to electrophoretic homogeneity by fast protein liquid chromatography. CKI-1 and CKI-2 correspond to mammalian type I casein kinase, because they bind to CM-Sephadex, they are monomeric enzymes of molecular weights below 50,000, they accept ATP exclusively (CKI-1) or predominantly (CKI-2) as phosphate donor, and they are either completely or relatively heparin insensitive. CKII corresponds to type II casein kinase due to its chromatographic properties, complex quaternary structure, nucleotide specificity (both ATP and GTP are phosphate donors), and heparin sensitivity. CKI-3 shares the following properties with type I casein kinases: it is retained by CM-Sephadex but not by DEAE-cellulose, and it consists of a monomeric protein having a molecular weight of 38,000. On the other hand, CKI-3 accepts both ATP and GTP with equal efficiency, and it is heparin sensitive (50% inhibition at 0.3 microgram/mL) like type II casein kinases. CKI-3 differs from the other three yeast casein kinases in requiring a low pH (5.5) and a high MgCl2 concentration (50 mM) for optimal activity. All four casein kinases phosphorylate their own catalytic protein at serine and threonine residues.
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PMID:Purification of a yeast protein kinase sharing properties with type I and type II casein kinases. 331 Nov 46

Three monoclonal antibodies were prepared against rat brain soluble protein kinase C. Two of the antibodies, CKI-97 (IgG2b subclass) and CKII-90 (IgG1 subclass), showed weak binding to native protein kinase C. The third antibody, CKI-33 (IgG2b subclass), showed no binding. However, the mixture of CKI-97, CKII-90, and CKI-33 exhibited much stronger binding activity to this protein kinase than any of the antibodies alone. Although none of these antibodies showed protein kinase C-neutralizing activity, Western blot analysis indicated that these antibodies reacted specifically with protein kinase C, presumably its subspecies, that is present predominantly in nervous tissues. Immunocytochemical studies shows that these antibodies can be used for identification of this enzyme in nervous tissues. In rat Purkinje cells, the immunoreactive material was present throughout the cytoplasm, including dendrites and axons, but was poorly represented in the cell nucleus. In cerebellum, the localization of protein kinase C appears to be very similar to that of cGMP-dependent protein kinase.
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PMID:Monoclonal antibodies against rat brain protein kinase C and their application to immunocytochemistry in nervous tissues. 355 49


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