Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
 47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular actions of nerve growth factor (NGF) and epidermal growth factor (EGF) may be mediated by changes in protein phosphorylation. The tyrosine phosphorylation of two predominant proteins of molecular mass 40 and 42 kDa is seen in PC-12 cells treated with NGF or EGF, correlating with activation of a previously identified serine/threonine protein kinase that phosphorylates microtubule-associated protein (MAP). Stimulation of phosphoprotein (pp) 40 and 42 phosphorylation and MAP kinase activity by NGF but not EGF is selectively attenuated by staurosporine and K-252A. Moreover, the time courses of pp40/42 phosphorylation and MAP kinase activation produced by NGF or EGF are identical. Chromatography of lysates from growth factor-treated cells on ion-exchange or hydrophobic-interaction HPLC resolves MAP kinase into two peaks, neither of which precisely coelutes with pp40 or pp42. One of these peaks (II) exhibits no detectable phosphotyrosine. The other peak (I) has some overlap with pp40. However, the activity residing in both peaks is almost completely inhibited after treatment with alkaline phosphatase, suggesting that, at least, serine/threonine phosphorylation is required for the activity of these enzymes. These data indicate that while tyrosine phosphorylation appears to be a critical early event in NGF action, the role of this modification in activation of MAP kinases remains unclear.
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PMID:Nerve growth factor stimulates protein tyrosine phosphorylation in PC-12 pheochromocytoma cells. 184 70

The origin, expression and role of matrix modifying enzymes in dental enamel was investigated by zymography and growth of enamel crystals in vitro. Gelatinase activity of the neutral metalloprotease type was detected at similar molecular weights in enamel organ, enamel and dentine. The activity was present throughout all developmental stages in enamel organ but was dramatically reduced in the maturation stage of the enamel. Activity of the serine protease type directed against enamel matrix was also detected in enamel, particularly in the maturation stage. No such activity was detected in the enamel organ. Phosphatase activity at alkaline pH was demonstrated at similar molecular weights in both enamel and enamel organ. This activity was maximal in the maturation stage. Further experiments showed that both serine proteases and alkaline phosphatase were able to facilitate enamel crystal growth in vitro. Matrix modification via temporally and spatially restricted enzymes may be directly involved in the control of enamel crystal growth and hence in the determination of final tissue architecture.
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PMID:Extracellular processing of enamel matrix proteins and the control of crystal growth. 196 51

We have previously described the purification of a myelin basis protein (MBP) kinase from maturing sea star oocytes (Sanghera, J. S., Paddon, H. B., Bader, S. A., and Pelech, S. L. (1990) J. Biol. Chem. 265, 52-57). The ability of the purified 44-kDa protein to bind azido-ATP and undergo autophosphorylation on the serine residue implied that it is a protein kinase. Furthermore, partial amino acid sequence data has revealed that it is a novel protein kinase, which we have provisionally designated p44mpk. Autophosphorylation of p44mpk to 0.7 mol of phosphate/mol of enzyme was correlated with a modest (approximately 17%) increase in the MBP-phosphorylating activity of the kinase. Rabbit polyclonal antibody raised against purified p44mpk recognized on immunoblots the protein in highly purified preparations as well as crude oocyte extracts. The affinity-purified anti-p44mpk antibody could immunoprecipitate active kinase, but a subpopulation of the antibody also appeared to be inhibitory. Using this antibody, we have demonstrated that the up to 12-fold stimulation of the cytosolic MBP-phosphorylating activity of this kinase that occurs during sea star oocyte maturation is not due to an increase in the amount of enzyme protein, either from a redistribution within the oocyte or protein synthesis. A slight retardation of the migration of the activated p44mpk on sodium dodecyl sulfate-polyacrylamide gels and its tighter interaction with a MonoQ column is consistent with phosphorylation of the kinase during maturation. p44mpk underwent enhanced phosphorylation when oocytes prelabeled with [32P]orthophosphate were induced to mature with 1-methyladenine. The stimulated MBP-phosphorylating activity of p44mpk in cytosols from maturing oocytes was partly stabilized by the presence of the phosphatase inhibitor beta-glycerol phosphate. Furthermore, treatment of purified p44mpk with protein phosphatase 2A and alkaline phosphatase resulted in 56 and 86% decreases, respectively, in the activity of the kinase. Together, these findings strongly implicate a role for phosphorylation of p44mpk in its activation during sea star oocyte maturation.
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PMID:Role of protein phosphorylation in the maturation-induced activation of a myelin basic protein kinase from sea star oocytes. 201 85

The Mr = 38,300 polypeptide of the purified recombinant rat DNA polymerase beta served as an excellent substrate for protein kinase C (PKC) in vitro but not for the catalytic subunit of cAMP-dependent protein kinase. The phosphorylation by PKC resulted in inactivation of DNA polymerase beta activity, and recovery was achieved by dephosphorylation with alkaline phosphatase. Since the phosphorylated DNA polymerase beta was retained with use of a single-stranded DNA-cellulose column, inactivation might occur at a site different from that for the DNA binding. Amino acid sequence analysis of the phosphopeptides revealed that the phosphorylated sites were 2 serine residues at positions 44 and 55 from the NH2 terminus, either or both of which might be involved in the catalytic activity of DNA polymerase beta. Thus, the inactivation of the DNA repair enzyme, DNA polymerase beta, by PKC may be an important process in the modification of DNA metabolism in the nucleus through signal transduction processes.
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PMID:Inactivation of DNA polymerase beta by in vitro phosphorylation with protein kinase C. 204 Jun 2

Site-directed mutagenesis was used to replace the serine residue at the primary phosphorylation site of human eukaryotic initiation factor (eIF) 4E with an alanine residue. The mutated cDNA was transcribed in vitro, and the transcript was used to direct protein synthesis in a reticulocyte lysate system. The variant protein (eIF-4EAla) was retained on a 7-methylguanosine 5'-triphosphate (m7GTP)-Sepharose affinity column and was specifically eluted by m7GTP. Examination of eIF-4EAla by isoelectric focusing revealed two species which had the same pI values as the phosphorylated and nonphosphorylated forms of unaltered eIF-4E (here designated eIF-4ESer). However, conversion of unphosphorylated eIF-4EAla to the putative phosphorylated eIF-4EAla in the reticulocyte lysate system was slower than the corresponding conversion of eIF-4ESer. The possibility that the more acidic form of eIF-4EAla was due to NH2-terminal acetylation was ruled out by an experiment in which the acetyl-CoA pool of the reticulocyte lysate system was depleted with oxaloacetate and citrate synthase. The more acidic form of eIF-4EAla was, however, eliminated by treatment with calf intestine alkaline phosphatase, suggesting that it results from a second-site phosphorylation. When translation reaction mixtures were resolved on sucrose density gradients, the 35S-labeled eIF-4ESer was found on the 48 S initiation complex in the presence of guanylyl imidodiphosphate, as reported earlier (Hiremath, L.S., Hiremath, S.T., Rychlik, W., Joshi, S., Domier, L.L., and Rhoads, R.E. (1989) J. Biol. Chem. 264, 1132-1138). eIF-4EAla, by contrast, was not found on the 48 S complex, suggesting that phosphorylation of eIF-4E is necessary for it to carry out its role of transferring mRNA to the 48 S complex. Supporting this interpretation was the finding that eIF-4ESer isolated from 48 S initiation complexes consisted predominantly of the phosphorylated form.
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PMID:Alteration of the major phosphorylation site of eukaryotic protein synthesis initiation factor 4E prevents its association with the 48 S initiation complex. 210 35

Many proteins are now known to be anchored to the plasma membrane by a phosphatidylinositol-glycan (PI-G) moiety that is attached to their COOH termini. Placental alkaline phosphatase (PLAP) has been used as a model for investigating mechanisms involved in the COOH-terminal processing of PI-G-tailed proteins. The COOH-terminal domain of pre-pro-PLAP provides a signal for processing during which a largely hydrophobic 29-residue COOH-terminal peptide is removed, and the PI-G moiety is added to the newly exposed Asp-484 terminus. This cleavage/attachment site was subjected to an almost saturation mutagenesis, and the enzymatic activities, COOH-terminal processing, and cellular localizations of the various mutant PLAP forms were determined. Substitution of Asp-484 by glycine, alanine, cysteine, asparagine, or serine (category I) resulted in PI-G-tailed and enzymatically active proteins. However, not all category I mutant proteins were PI-G tailed to the same extent. Pre-pro-PLAP with other substituents at position 484 (threonine, proline, methionine, valine, leucine, tyrosine, tryptophan, lysine, glutamic acid, and glutamine; category II) were expressed, as well as the category I amino acids, but there was little or no processing to the PI-G-tailed form, and this latter group exhibited very low enzyme activity. The bulk of the PLAP protein produced by category II mutants and some produced by category I mutants were sequestered within the cell, apparently in the endoplasmic reticulum (ER). Most likely, certain amino acids at residue 484 are preferred because they yield better substrates for the putative "transamidating" enzyme. In transfected COS cells, at least, posttranslational PI-G-tail processing does not go to completion even for preferred substrates. Apparently PI-G tailing is a requisite for transport from the ER and for PLAP enzyme activity. Proteins that are not transamidated are apparently retained in the ER in an inactive conformation.
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PMID:Selectivity of the cleavage/attachment site of phosphatidylinositol-glycan-anchored membrane proteins determined by site-specific mutagenesis at Asp-484 of placental alkaline phosphatase. 215 84

This report describes a new transposon designed to facilitate the combined use of beta-galactosidase and alkaline phosphatase gene fusions in the analysis of protein localization. The transposon, called TnlacZ, is a Tn5 derivative that permits the generation of gene fusions encoding hybrid proteins carrying beta-galactosidase at their C termini. In tests with plasmids, TnlacZ insertions that led to high cellular beta-galactosidase activity were restricted to sequences encoding either cytoplasmic proteins or cytoplasmic segments of a membrane protein. The fusion characteristics of TnlacZ are thus complementary to those of TnphoA, a transposon able to generate alkaline phosphatase fusions whose high-activity insertion sites generally correspond to periplasmic sequences. The structure of TnlacZ allows the conversion of a TnlacZ fusion into the corresponding TnphoA fusion (and vice versa) through recombination or in vitro manipulation in a process called fusion switching. Fusion switching was used to generate the following two types of fusions with unusual properties: a low-specific-activity beta-galactosidase-alkaline phosphatase gene fusion and two toxic periplasmic-domain serine chemoreceptor-beta-galactosidase gene fusions. The generation of both beta-galactosidase and alkaline phosphatase fusions at exactly the same site in a protein permits a comparison of the two enzyme activities in evaluating the subcellular location of the site, such as in studies of membrane protein topology. In addition, fusion switching makes it possible to generate gene fusions whose properties should facilitate the isolation of mutants defective in the export or membrane anchoring of different cell envelope proteins.
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PMID:Analysis of protein localization by use of gene fusions with complementary properties. 215 53

Haemophilus ducreyi has traditionally been difficult to identify. We have utilized simple test methods to identify 19 fresh isolates obtained during a recent outbreak of chancroid in Houston and six strains of H. ducreyi from other outbreaks. Tests were performed from growth on chocolate agar after 48 h of incubation at 35 degrees C with increased humidity and CO2. All isolates exhibited typical colonial morphology and Gram stain. Isolates were catalase negative and oxidase and nitrate positive (in enriched broth). The RapID NH system failed to identify these strains because of negative reactions with alkaline phosphatase and nitrate reductase. However, by using the RapID-ANA system, all strains were positive for alkaline phosphatase and arginine, glycine, and serine aminopeptidases. Their biochemical profiles were distinct from those obtained with 66 strains representing 13 species similar to H. ducreyi. We also investigated the use of sodium polyanetholesulfonate (SPS) disk susceptibility to identify and differentiate H. ducreyi from other species. All H. ducreyi isolates were susceptible, as evidenced by the presence of a zone of inhibition with an average size of 15 mm around the SPS disk. With the exceptions of Neisseria gonorrhoeae, Gardnerella vaginalis, and Capnocytophaga spp., no other strain showed any evidence of inhibition. The latter three organisms can be easily differentiated from H. ducreyi by various features including reactions in the RapID-ANA. We conclude that, by considering simple growth and biochemical characteristics, SPS susceptibilities, and reactions in RapID-ANA, it is possible for more clinical laboratories to definitively identify this organism.
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PMID:Use of the RapID-ANA system and sodium polyanetholesulfonate disk susceptibility testing in identifying Haemophilus ducreyi. 215 97

Type II topoisomerase has been purified from mouse FM3A cells by using P4 phage knotted DNA as a substrate. Analysis of the purified enzyme by sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed two bands of apparent molecular masses of 167 and 151 kDa. Partial digestion of the two bands with Staphylococcus aureus V8 protease indicated that the two polypeptides were structurally related. The enzyme required ATP and Mg2+ for activity. dATP could substitute for ATP, and ITP was slightly effective at 5-10 mM. The activity was sensitive to 4'-(9-acridinylamino)methanesulfon-m-anisidide (m-AMSA), coumermycin, and ethidium bromide. A protein kinase activity was detected in the partially purified topoisomerase II fraction, and this protein kinase was further purified. The protein kinase phosphorylated the purified topoisomerase II, and the phosphorylation of topoisomerase II by the kinase increased the activity by 8.6-fold over that of the unmodified enzyme. The treatment of the purified topoisomerase II with alkaline phosphatase abolished the enzyme activity almost completely, and the treatment of the dephosphorylated topoisomerase II with the protein kinase restored the enzyme activity. The protein kinase activity was not stimulated by Ca2+ or cyclic nucleotides, and the aminoacyl residue phosphorylated by the kinase was serine. Enzymatic properties of the kinase were very similar to those of the kinase reported to be tightly associated with the Drosophila topoisomerase II [Sander, M., Nolan, J. M., & Hsieh, T.-S. (1984) Proc. Natl. Acad. Sci. U.S.A. 81, 6938-6942]. The immunoprecipitation of nuclear extracts prepared from 32P-labeled cells with anti-mouse topoisomerase II antiserum indicated that DNA topoisomerase II existed in mouse cells as a phosphoprotein.
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PMID:Purification and characterization of type II DNA topoisomerase from mouse FM3A cells: phosphorylation of topoisomerase II and modification of its activity. 215 52

Treatment of PC12 cells with nerve growth factor (NGF) resulted in the rapid, but transient, activation of a protein kinase which specifically phosphorylated an endogenous 250-kDa cytoskeletal protein (pp250). We report that the microtubule-associated protein, MAP2, is an alternative substrate for the NGF-activated kinase. NGF treatment maximally activated the kinase within 5 min; however, the activity declined with longer exposure to NGF. The enzyme was localized predominantly in microsomal and soluble fractions and phosphorylated MAP2 on serine and threonine residues. The soluble enzyme was fractionated by DEAE chromatography and gel filtration and had an apparent Mr of 45,000. The enzyme was purified to near homogeneity by chromatofocussing and had a pI of 4.9. Kinetic analysis revealed that NGF treatment caused a sevenfold increase in Vmax for MAP2. The Km with respect to the MAP2 substrate was approximately 50 nM and was not altered by NGF treatment. A novel feature of the NGF-stimulated enzyme was its sharp dependence on Mn2+ concentration. The active enzyme is likely to be phosphorylated, because inclusion of phosphatase inhibitors was required for recovery of optimal activity and the activity was lost on treatment of the enzyme with alkaline phosphatase. Histones, tubulin, casein, bovine serum albumin, and the ribosomal subunit protein S-6 were not phosphorylated by this enzyme. The NGF-stimulated kinase was distinct from A kinase, C kinase, or other NGF-stimulated kinases. The rapid and transient activation of the protein kinase upon NGF treatment suggests that the enzyme may play a role in signal transduction in PC12 cells.
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PMID:Characterization of a nerve growth factor-stimulated protein kinase in PC12 cells which phosphorylates microtubule-associated protein 2 and pp250. 216 72


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