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: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The regulatory site peptide sequence of phosphorylated inactive pyruvate, orthophosphate dikinase from maize leaf tissue was determined by automated Edman degradation analysis of 32P-labeled peptides purified by reversed-phase high performance liquid chromatography. The overlapping phosphopeptides were products of a digestion of the [beta-32P]ADP-inactivated dikinase with either trypsin or Pronase E. The sequence is Thr-Glu-Arg-Gly-Gly-Met-Thr(P)-Ser-His-Ala-Ala-Val-Val-Ala-Arg. The phosphothreonine residue, which appeared as either an anomalous proline or an unidentifiable phenylthiohydantoin derivative during sequencing, was verified by two-dimensional phosphoamino acid analysis of the phosphopeptides and by resequencing the tryptic peptide after dephosphorylation with exogenous alkaline phosphatase. This sequence, starting at position 4, is completely homologous to the previously published sequence of the tryptic dodecapeptide harboring the catalytically essential (phospho)histidyl residue in the active-site domain of the dikinase from the nonphotosynthetic bacterium, Bacteroides symbiosus (Goss, N.H., Evans, C.T., and Wood, H.G. (1980) Biochemistry 19, 5805-5809). These comparative results indicate that the regulatory phosphothreonine causing complete inactivation of maize leaf dikinase is separated from the critical active-site (phospho)histidine by just one intervening residue in the primary sequence.
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PMID:Sequence of the phosphothreonyl regulatory site peptide from inactive maize leaf pyruvate, orthophosphate dikinase. 283 85

A protein (ib), which we have detected previously in peptide hormone or cAMP-stimulated corpus luteum cells, is shown to be a phosphoprotein and to be posttranslationally converted into a more acidic phosphoprotein (ia). Phosphorylation is demonstrated by two types of experiments, both using two-dimensional gel electrophoresis. In the first type, gels from [35S]methionine-labeled solubilized cell extracts are compared to gels from such extracts treated with alkaline phosphatase. This in vitro phosphatase treatment converts protein ib quantitatively into protein pb, which is synthesized in vivo only in unstimulated cells. Similarly, ia is converted into pa, the posttranslational product of pb. The second type of experiment demonstrates 32P label incorporation into proteins with the same electrophoretic mobilities as proteins ib and ia. Limited proteolytic digestion of all four proteins from phosphatase-treated and untreated corpus luteum cells shows that the newly detected acidic products, ia and pa, give rise to cleavage patterns similar to those of ib and pb. Further, these patterns resemble those produced by all four such proteins from the adrenal. These findings suggest that in both stimulated corpus luteum and adrenal, a similar protein ib, which accumulates with kinetics and stimulant dose response paralleling those of steroid hormone biosynthesis, is phosphorylated during its synthesis and is degraded by conversion to another phosphoprotein (ia).
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PMID:Acute stimulation of corpus luteum cells by gonadotrophin or adenosine 3',5'-monophosphate causes accumulation of a phosphoprotein concurrent with acceleration of steroid synthesis. 284 52

Substitution reactions with biologic nucleophiles appear to govern the antitumor and toxic properties of platinum complexes. In this paper we have characterized the reactions of several platinum antitumor agents with sulfur-containing amino acids, peptides, proteins, and nonbiologic nucleophiles. The rate constants for the reactions of trans-diamminedichloroplatinum(II) (trans-DDP), cis-diamminedichloroplatinum(II) (DDP), diammine (1,1-cyclobutanedicarboxylato)platinum(II) (CBDCA) and cis-diisopropylamine-cis-dichloro-trans-dihydroxy platinum(IV) (CHIP) with cysteine (Cys), methionine (Met), and glutathione (GSH) were determined at 37 degrees. A reactivity ratio of 1:1.5:22:6500 was determined for the reaction of GSH with CHIP, CBDCA, DDP, and trans-DDP respectively. The rate constant for the binding of DDP to DNA, 7.4 X 10(-5) sec-1, decreased to 5.9 X 10(-5) sec-1 and 1.7 X 10(-5) sec-1 in the presence of 0.5 and 5 mM GSH respectively. The products formed in the reaction of GSH with trans-DDP, DDP, and CBDCA were also examined. Under conditions of high platinum concentration (2-3 mM), CBDCA and DDP form large molecular weight species with GSH as indicated by 1H-NMR and ultrafiltration experiments. The complex [Pt(GSH)2 X 3H2O]n was isolated from the reaction of 3 mM DDP with 6 mM GSH. The product formed in the reaction of 3 mM trans-DDP with 6 mM GSH was not macromolecular in nature, and 1H-NMR spectra revealed that platinum was bound to the Cys sulfhydryl group. Rate constants were determined for the reactions of these platinum complexes with diethyldithiocarbamate (DDTC) and thiosulfate, two agents known to reduce platinum-mediated nephrotoxicity. DDTC, but not thiosulfate, was shown to rapidly chelate platinum from [Pt(GSH)2 X 3H2O]n. The effects of DDP, CBDCA, and CHIP on the sulfhydryl-dependent rat renal proximal tubule membrane enzymes alkaline phosphatase (AP), gamma-glutamyltranspeptidase (GGTP), leucine aminopeptidase (LAP), and the Na+/K+- and Mg2+-adenosine-5'-triphosphatases (ATPases) were also investigated in vitro. The ability of platinum complexes to inhibit these enzymes parallels their reactivity with other nucleophiles. DDTC and thiourea were shown to restore activity to platinum-inhibited enzymes. Chloride ion was found to reduce platinum-mediated enzyme inhibition in an unpredictable manner, the greatest effect being observed with LAP and GGTP and the least with the ATPases. None of these renal enzymes was directly inhibited by DDP in vivo.
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PMID:Characterization of the reactions of platinum antitumor agents with biologic and nonbiologic sulfur-containing nucleophiles. 295 56

Two-dimensional gel electrophoresis was used to monitor proteins synthesized in unstimulated control and in adrenocorticotropic hormone (ACTH)- or cAMP-stimulated rat adrenal cells. Four proteins, which have similar proteolytic peptide maps, have been identified. The two found primarily in unstimulated cells are referred to as pb and pa, where pb is the protein with more basic isoelectric point. Similarly, proteins ib and ia were detected only in stimulated cells. The synthesis of pb occurs only in unstimulated cells and that of ib only in stimulated cells. Protein ib accumulates with the same lag time, rate, and stimulant dose response as the increase in steroid hormone synthesis. Pulse-chase studies showed that protein ib is not produced from pb by a post-translational modification. Proteins pb and ib thus seem identical with proteins p and i previously identified in rat adrenal cortex and corpus luteum (Krueger, R.J., and Orme-Johnson, N. R. (1983) J. Biol. Chem. 258, 10159-10167, and Pon, L.A., and Orme-Johnson, N.R. (1986) J. Biol. Chem. 261, 6594-6599). The acidic forms, pa and ia, appear after a longer lag time and are produced at a slower rate than the basic forms. Pulse-chase studies showed that the disappearance of the basic form of each protein occurs concurrently with the appearance of the corresponding acidic form. Addition of [32P]orthophosphate to stimulated adrenal cells allowed direct demonstration that proteins ib and ia are phosphorylated. Moreover, alkaline phosphatase treatment of [35S]methionine-labeled, cAMP-stimulated adrenal cells caused a large decrease in the amounts of ib and ia and the appearance of proteins with the same two-dimensional electrophoretic mobilities as pb and pa. These observations suggest that protein ib may mediate stimulation of steroidogenesis, be produced by an ACTH- or cAMP-dependent, cotranslational phosphorylation of protein pb, and be lost by a cycloheximide-insensitive, post-translational conversion to ia.
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PMID:Acute ACTH regulation of adrenal corticosteroid biosynthesis. Rapid accumulation of a phosphoprotein. 302 29

Phosphorylation is responsible for the shift in electrophoretic mobility of polyomavirus large T antigen observed in pulse-chase or continuous-labeling experiments. Phosphorylated forms migrated more slowly than newly synthesized [35S]methionine large T antigen, and alkaline phosphatase treatment reversed the mobility shift. Analysis of phosphopeptides with Staphylococcus aureus V8 protease showed that large T antigen forms of intermediate mobility were enriched in peptides 1 to 4, 8, and 9, while the slower migrating species had all nine phosphopeptides, including peptides 5 and 7. The phosphorylations represented by phosphopeptides 5 and 7 were of particular interest. These phosphopeptides were entirely lacking in large T antigen from tsa mutants such as ts616 labeled at the nonpermissive temperature. Also, the phosphorylation of peptides 5 and 7 depends on the growth state of the cell. Early in infection of quiescent cells intermediate mobility forms of large T antigen with little or no phosphorylation, particularly of peptides 5 and 7, were seen, whereas peptides 5 and 7 were well represented at the same time in patterns from growing cells. Later in infection of growth-arrested cells, these phosphorylations were observed, suggesting that infection stimulates the relevant kinase. Because large T antigen of hrt mutants, which lack middle and small T antigens, showed phosphorylation of peptides 5 and 7, large T antigen was apparently responsible for the stimulation. Because some differences in the distribution of phosphopeptides were noted between hrt mutants and the wild type, middle T antigen, small T antigen, or both may play a modulating role in large T antigen phosphorylation.
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PMID:Phosphorylation of polyomavirus large T antigen: effects of viral mutations and cell growth state. 302 9

We have investigated the covalent modification of the proteins encoded by the murine fos proto-oncogene (c-fos) and that of the corresponding gene product of FBJ murine osteosarcoma virus (v-fos). Both proteins are posttranslationally processed in the cell, resulting in forms with lower electrophoretic mobilities than that of the initial translation product on sodium dodecyl sulfate-polyacrylamide gels. Treatment with alkaline phosphatase indicates that most, if not all, of this electrophoretic shift is due to phosphoesterification of both proteins. These phosphoryl groups stoichiometrically modify the v-fos and c-fos proteins on serine residues and turn over rapidly in vivo in the presence of protein kinase inhibitors (half-life, less than 15 min). Direct quantitative comparison of steady-state labeling studies with L-[35S]methionine and [32P]phosphate reveals that the c-fos protein is four- to fivefold more highly phosphorylated than the v-fos protein is. Comparison of tryptic fragments from [32P]phosphate-labeled proteins indicates that although the two proteins have several tryptic phosphopeptides in common, the c-fos protein contains unique major tryptic phosphopeptides that the v-fos protein lacks. These unique sites of c-fos phosphorylation have been tentatively localized to the carboxy-terminal 20 amino acid residues of the protein. Phosphorylation of the c-fos protein, but not the v-fos protein, can be stimulated at least fivefold in vivo by the addition of either 12-tetradecanoyl-phorbol-13-acetate or serum. This increase in the steady-state degree of phosphorylation of c-fos appears to be independent of protein kinase C since phosphorylation is Ca2+ and diacylglycerol independent. The possible role of phosphorylation of these proteins in cellular transformation is discussed.
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PMID:Modification of fos proteins: phosphorylation of c-fos, but not v-fos, is stimulated by 12-tetradecanoyl-phorbol-13-acetate and serum. 311 Jun 3

Sensory neurons in the dorsal root ganglion (DRG) were used in an in vivo pulse-chase labeling paradigm to examine the time course and nature of posttranslational processing of neurofilament (NF) proteins. Ganglia of adult rats were labeled with 35S-methionine and harvested 1-72 hr later. Samples containing the cell bodies and short initial axonal segments of DRG neurons were analyzed by 1- and 2-dimensional PAGE/fluorography. For comparison, axonally transported NF proteins (200, 145, and 68 kDa) were harvested from the sciatic nerve 21 d after labeling the fifth lumbar (L5) DRG. Analysis of the pulse-chase experiments revealed that the mature 200 kDa protein (NF200) was not identifiable in gels of DRG samples until 24-48 hr after labeling. Immunoblotting/fluorography of 2-dimensional gels with monoclonal antibodies to phosphorylated and unphosphorylated NF proteins identified the high-molecular-weight NF subunit in various stages of processing in the DRG between 1 and 48 hr after labeling. The precursor to NF200 migrated on 2-dimensional PAGE as a 160 kDa protein with a pI of about 7.2. During the next 48 hr, the migration of this protein progressively changed to the mature pattern of 200 kDa and a pI of about 5.2. The 145 and 68 kDa NF proteins exhibited very little change in migration on gels during this same interval. Dephosphorylation of mature NF proteins with E. coli alkaline phosphatase regenerated the 160 kDa precursor, confirming that phosphorylation was the main posttranslational mechanism involved in the maturation of newly synthesized high-molecular-weight NF protein. Detergent extraction of labeled DRGs suggested that the 160 kDa NF protein was present in assembled neurofilaments. Immunohistochemical experiments with monoclonal antibodies were performed to explore the intracellular location of phosphorylated and unphosphorylated high-molecular-weight NF protein. Analysis revealed that neuronal cell bodies, as well as short initial segments of DRG axons located within the ganglion, contained unphosphorylated NF protein, while axons in the distal nerve contained mature, phosphorylated NF200. These findings provide support for a model in which posttranslational processing of the 160 kDa precursor occurs in the initial axonal region of DRG cells after the assembled NFs have left the cell body and begun axonal transport.
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PMID:Characterization of posttranslational processing of the mammalian high-molecular-weight neurofilament protein in vivo. 311 26

The 200-kD subunit of neurofilaments (NF-H) functions as a cross-bridge between neurofilaments and the neuronal cytoskeleton. In this study, four phosphorylated NF-H variants were identified as major constituents of axons from a single neuron type, the retinal ganglion cell, and were shown to have characteristics with different functional implications. We resolved four major Coomassie Blue-stained proteins with apparent molecular masses of 197, 200, 205, and 210 kD on high resolution one-dimensional SDS-polyacrylamide gels of mouse optic axons (optic nerve and optic tract). Proteins with the same electrophoretic mobilities were radiolabeled within retinal ganglion cells in vivo after injecting mice intravitreally with [35S]methionine or [3H]proline. Extraction of the radiolabeled protein fraction with 1% Triton X-100 distinguished four insoluble polypeptides (P197, P200, P205, P210) with expected characteristics of NF-H from two soluble neuronal polypeptides (S197, S200) with few properties of neurofilament proteins. The four Triton-insoluble polypeptides displayed greater than 90% structural homology by two-dimensional alpha-chymotryptic iodopeptide map analysis and cross-reacted with four different monoclonal and polyclonal antibodies to NF-H by immunoblot analysis. Each of these four polypeptides advanced along axons primarily in the Group V (SCa) phase of axoplasmic transport. By contrast, the two Triton-soluble polypeptides displayed only a minor degree of alpha-chymotryptic peptide homology with the Triton-insoluble NF-H forms, did not cross-react with NF-H antibodies, and moved primarily in the Group IV (SCb) wave of axoplasmic transport. The four NF-H variants were generated by phosphorylation of a single polypeptide. Each of these polypeptides incorporated 32P when retinal ganglion cells were radiolabeled in vivo with [32P]orthophosphate and each cross-reacted with monoclonal antibodies specifically directed against phosphorylated epitopes on NF-H. When dephosphorylated in vitro with alkaline phosphatase, the four variants disappeared, giving rise to a single polypeptide with the same apparent molecular mass (160 kD) as newly synthesized, unmodified NF-H. The NF-H variants distributed differently along optic axons. P197 predominated at proximal axonal levels; P200 displayed a relatively uniform distribution; and P205 and P210 became increasingly prominent at more distal axonal levels, paralleling the distribution of the stationary neurofilament network.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Multiple phosphorylated variants of the high molecular mass subunit of neurofilaments in axons of retinal cell neurons: characterization and evidence for their differential association with stationary and moving neurofilaments. 314 56

We have isolated from the high salt wash of rabbit reticulocyte ribosomes two forms of the polypeptide chain initiation factor 2 (eIF-2) which differ with respect to their beta-subunit, GDP content, and sensitivity to Mg2+ in ternary (eIF-2 X GTP X Met-tRNAf) and binary (eIF-2 X GDP) complex formation. The form of eIF-2 eluting first from a cation exchange (Mono S, Pharmacia) column has a beta-subunit of lower molecular weight (eIF-2(beta L] and a more acidic pI value than the form eluting at a higher salt concentration (eIF-2(beta H]. These two forms of eIF-2 beta-polypeptides are also detected in reticulocyte lysates when the proteins are resolved by two-dimensional isoelectric focusing-dodecyl sulfate polyacrylamide gel electrophoresis followed by immunoblotting. The peptide mapping of the isolated beta-subunits after limited proteolysis by papain, pancreatic protease, alpha-chymotrypsin, or Staphylococcus aureus V8 protease further demonstrates that the two forms of beta-subunits are not the product of a non-specific proteolytic action that occurred during the purification procedure, but rather reflects the existence in vivo of both forms of eIF-2. The GDP content of eIF-2(beta L) and eIF-2(beta H) is approximately 0.85 and 0.22 mol of GDP/mol of eIF-2, respectively. The KD for GDP of eIF-2(beta L) was lower (2.2 X 10(-9) M) than that of eIF-2(beta H) (6.0 X 10(-8) M). In the presence of 1 mM Mg2+, the activities of eIF-2(beta L) and eIF-2(beta H) in forming a binary and a ternary complex are inhibited 90 and 25%, respectively. The extent of Mg2+ inhibition and its reversal by the guanine nucleotide exchange factor is directly proportional to the amount of GDP bound to eIF-2. No inhibition by Mg2+ is observed when eIF-2-bound GDP is removed by alkaline phosphatase. In the presence of the guanine nucleotide exchange factor, both forms of eIF-2 are equally active in ternary complex formation, and the complex formed is quantitatively transferred to 40 S ribosomal subunits.
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PMID:The isolation and characterization from rabbit reticulocytes of two forms of eukaryotic initiation factor 2 having different beta-polypeptides. 330 29

The interaction of synthetic peptides corresponding to the signal sequences of Escherichia coli alkaline phosphatase: Lys-Gln-Ser-Thr-Ile-Ala-Leu-Ala-Leu-Leu-Pro-Leu-Leu-Phe-Thr-Pro-Val-Thr- Lys-Ala - OCH3, chicken lysozyme: Met-Lys-Ser-Leu-Leu-Ile-Leu-Val-Leu-Cys(Bzl)-Phe-Leu-Pro-Leu- Ala-Ala-Leu-Gly-OCH2-C6H5 and variant of the chicken lysozyme signal sequence with a charged residue in the hydrophobic region: Lys-Leu-Leu-Ile-Ala-Leu-Val-Leu-Lys-Phe-Leu-Pro-Leu-Ala-Ala- Leu-Gly-OCH3 with model membranes of brain phosphatidylserine (PS) and egg phosphatidylcholine (PC) have been investigated by 90 degrees light scattering and fluorescence spectroscopy. Our results indicate that the association of signal peptides with model membranes results in extensive perturbation of the lipid bilayer so as to cause fusion of PS vesicles and aggregation of PC vesicles. The vesicles are also rendered permeable to hydrophilic molecules like carboxyfluorescein. The variant peptide with the lysine residue in the hydrophobic region also has the ability to perturb lipid bilayers of model membranes.
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PMID:Perturbation of the lipid bilayer of model membranes by synthetic signal peptides. 331 Nov 64


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