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:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dipeptidyl peptidase IV was solubilized from the microvillar membrane of pig kidney by Triton X-100. The purified enzyme was homogeneous on polyacrylamide-gel electrophoresis and ultracentrifugation, although immunoelectrophoresis indicated that amino-peptidase M was a minor contaminant. A comparison of the detergent-solubilized and proteinase (autolysis)-solubilized forms of the enzyme was undertaken to elucidate the structure and function of the hydrophobic domain that serves to anchor the protein to the membrane. No differences in catalytic properties, nor in sensitivity to inhibition by di-isopropyl phosphorofluoridate were found. On the other hand, several structural differences could be demonstrated. Both forms were about 130,000 subunit mol.wt., but the detergent form appeared to be larger by no more than about 4,000. Electron microscopy showed both forms to be dimers, and gel filtration revealed a difference in the dimeric mol.wt. of about 38 000, mainly attributable to detergent molecules bound to the hydrophobic domain. Papain converted the detergent form into a hydrophilic form that could not be distinguished in properties from the autolysis form. A hydrophobic peptide of about 3500 mol.wt. was identified as a product of papain treatment. The detergent and proteinase forms differed in primary structure. Partial N-terminal amino acid sequences were shown to be different, and the pattern of release of amino acids from the C-terminus by carboxypeptidase Y was essentially similar. The results are consistent with a model in which the protein is anchored to the microvillar membrane by a small hydrophobic domain located within the N-terminal amino acid sequence of the polypeptide chain. The significance of these results in relation to biosynthesis of the enzyme and assembly in the membrane is discussed.
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PMID:Proteins of the kidney microvillar membrane. The amphipathic form of dipeptidyl peptidase IV. 48 89

A methionine aminopeptidase that specifically removes methionine residues from peptides with amino-terminal sequences of Met-Ala-, Met-Val-, Met-Ser-, Met-Gly-, and Met-Pro- but not Met-Leu- or Met-Lys- has been isolated to homogeneity from porcine liver by a procedure involving five chromatographic steps. The enzyme, whose specificity matches that predicted for the entity responsible for the co-translational amino-terminal processing of nascent polypeptide chains, has a measured molecular mass of 70,000 Da by SDS-polyacrylamide electrophoresis and 67,000 Da by gel chromatography (under nondenaturing conditions), suggesting the native molecule is a monomer. It is activated by Co2+ and inhibited by beta-mercaptoethanol and EDTA. With octapeptide substrates related to the amino-terminal portion of the beta-chain of human hemoglobin (with a histidine in position 3), the enzyme had a pH optimum of 6.0. With a synthetic peptide devoid of histidine, it showed no pH dependence from 6.0 to 8.0. This sensitivity may be due to the propensity of peptides with histidine in the third position to bind divalent cations such as Co2+. The measured Km and kappa cat values were affected by residues in the second position. The peptide corresponding to the natural sequence (Met-Val-His-) gave a kappa cat/Km value of 260 mM-1 s-1; substitution of alanine in the second position raised the kappa cat/Km to 1523 mM-1 s-1, but substitution of proline lowered the value to 130. The effects are primarily on the kappa cat. The substitution of proline (for histidine) in the third position, the mutation found in hemoglobin Long Island, prevents the removal of the methionine residue, as occurs with the mutant protein. The porcine liver enzyme is similar to methionine aminopeptidases isolated from Escherichia coli, Salmonella typhimurium, and yeast in that it also is stimulated by Co2+. However, it is much larger than these enzymes and differs somewhat in specificity, particularly with the yeast enzyme.
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PMID:Isolation and characterization of the methionine aminopeptidase from porcine liver responsible for the co-translational processing of proteins. 132 7

Insulin-induced differentiation of 3T3 L1 cells to adipocytes can be mimicked by the expression of transfected ras oncogenes but not of the tyrosine-kinase oncogenes src and trk. Expression of two different transfected, dominant inhibitory ras mutants resulted in significant inhibition of insulin-induced differentiation, suggesting that endogenous Ras proteins are mediators of insulin signaling in these cells. Exposure of untransfected 3T3 L1 cells to insulin resulted in significant formation of the active Ras.GTP complex, at levels comparable with those resulting from exposure to platelet-derived growth factor. However, whereas exposure of the same cells to platelet-derived growth factor resulted in significant tyrosine phosphorylation of the p21ras GTPase-activating protein (GAP), insulin-treated cells did not show any detectable levels of de novo GAP tyrosine phosphorylation. Interestingly, insulin caused tyrosine phosphorylation of the p62 polypeptide coprecipitated with GAP by anti-GAP antibodies. Insulin-induced activation of cytosolic MAP kinase activity in untransfected 3T3 L1 cells was also mimicked by Ras expression (in the absence of insulin) in the same cells transfected with an inducible ras construct. These results confirm that Ras proteins participate in insulin signaling pathways in these mammalian cells and indicate that activation of cytosolic MAP kinases is an early event occurring downstream from Ras activation. However, tyrosine phosphorylation of GAP appears not to be a significant upstream regulatory event in the activation of Ras by insulin.
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PMID:Activation of Ras by insulin in 3T3 L1 cells does not involve GTPase-activating protein phosphorylation. 132 23

A synthetic gene encoding the Group II phospholipase A2 (PLA2) from the venom of Agkistrodon piscivorus piscivorus has been constructed and expressed with high efficiency in Escherichia coli. No enzymatic activity was recovered when the polypeptide contained the initiator Met residue. Replacement of an Asn residue penultimate to the initiator Met with Ser or Gly permitted removal of the initiator Met by the endogenous methionine aminopeptidase. The amino-terminal serine (N-Ser) and amino-terminal glycine PLA2's were isolated from intracellular inclusion bodies and were renatured with 25% recovery. Automated Edman degradation confirmed the removal of the initiator Met and confirmed the sequence of the first 40 residues of N-Ser PLA2. The recombinant proteins were purified to apparent homogeneity and showed the same specific activity as the wild-type protein. N-Ser PLA2 demonstrated the same kinetics of activation as the wild type enzyme on large vesicles of zwitterionic lipid.
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PMID:Expression of a group II phospholipase A2 from the venom of Agkistrodon piscivorus piscivorus in Escherichia coli: recovery and renaturation from bacterial inclusion bodies. 133 91

A yeast gene for a methionine aminopeptidase, one of the central enzymes in protein synthesis, was cloned and sequenced. The DNA sequence encodes a precursor protein containing 387 amino acid residues. The mature protein, whose NH2-terminal sequence was confirmed by Edman degradation, consists of 377 amino acids. The function of the 10-residue sequence at the NH2 terminus, containing 1 serine and 6 threonine residues, remains to be established. In contrast to the structure of the prokaryotic enzyme, the yeast methionine aminopeptidase consists of two functional domains: a unique NH2-terminal domain containing two motifs resembling zinc fingers, which may allow the protein to interact with ribosomes, and a catalytic COOH-terminal domain resembling other prokaryotic methionine aminopeptidases. Furthermore, unlike the case for the prokaryotic gene, the deletion of the yeast MAP1 gene is not lethal, suggesting for the first time that alternative NH2-terminal processing pathway(s) exist for cleaving methionine from nascent polypeptide chains in eukaryotic cells.
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PMID:Molecular cloning, sequencing, deletion, and overexpression of a methionine aminopeptidase gene from Saccharomyces cerevisiae. 156 59

In order to investigate the regulating mechanism of Atrial Natriuretic Polypeptide (ANP) in women with Pregnancy Induced Hypertension (PIH), we measured plasma ANP levels with or without loading tests such as Angiotensin-II loading test or NaCl loading test. Plasma ANP in normal pregnancy gradually increased with advancing gestation, and decreased immediately after parturition. In PIH cases the ANP concentration was significantly higher (mild PIH 156.7 +/- 9.9 pg/ml, severe PIH 165.8 +/- 12.2 pg/ml) than in normal pregnancy cases (138.2 +/- 3.2 pg/ml). In Angiotensin-II loading, a significant positive correlation (r = 0.68, p less than 0.01) between the variance of mean arterial blood pressure (delta MAP) and that of ANP (delta ANP) was observed in normal pregnant women of third trimester, whereas in mild PIH cases a significant negative correlation (r = -0.59, p less than 0.01) was noted between them, and in severe PIH cases there existed no significant correlation. In normal pregnancy and in mild PIH, plasma ANP showed a 15.2% increase at fifteen minutes after 5% NaCl loading. In severe PIH there were no significant change in plasma ANP during and at fifteen minutes after NaCl loading test. From these results, it is suggested that the onset, the duration or the aggravation of hypertension in pregnancy may be partly due to the abnormality of ANP secretion.
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PMID:[A study on dynamics of human atrial natriuretic polypeptide based on loading tests with angiotensin-II and NaCl in pregnancy induced hypertension]. 213 89

A rabbit antibody to bovine brain MAP 1C was prepared. The antibody stained the mitotic spindle of PtK2 cells by immunofluorescence. On immunoblots of PtK2 cell extract the antibody reacted with polypeptides of molecular weights greater than 350 and 80 KD that resemble the subunit proteins of bovine brain MAP 1C. An additional 135 KD polypeptide in the extract was also stained. These results indicate that a cytoplasmic dynein recognizable by the anti-MAP 1C antibody is localized in the mitotic spindle.
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PMID:Association of a cytoplasmic dynein-like protein recognizable by anti-MAP 1C with the mammalian mitotic spindle. 214 May 35

Previously we reported that chymotryptic fragments of bovine adrenal 190-kDa microtubule-associated proteins (27-kDa fragment) and bovine brain tau (14-kDa fragment) contained microtubule-binding domain (Aizawa, H., Murofushi, H., Kotani, Hisanaga, S., Hirokawa, N., and Sakai, H. (1987) J. Biol. Chem. 262, 3782-3787; Aizawa, H., Kawasaki, H., Murofushi, H., Kotani, S., Suzuki, K., and Sakai, H. (1988) J. Biol. Chem. 263, 7703-7707). In order to study the structure of microtubule-binding domain of the two microtubule-associated proteins, we analyzed the amino acid sequence of the 27-kDa fragment and compared the sequence with that of the 14-kDa fragment. This revealed that 190-kDa microtubule-associated protein and tau contained at least one common sequence of 20 amino acid residues in their microtubule-binding domains. A synthetic polypeptide corresponding to the common sequence (Lys-Asn-Val-Arg-Ser-Lys-Val-Gly-Ser-Thr-Glu-Asn-Ile-Lys- His-Gln-Pro-Gly-Gly-Gly-Arg-Ala-Lys) was bound to microtubules competitively with the 190-kDa MAP. The apparent dissociation constant (KD) for the binding of the polypeptide to microtubules was estimated to be 1.8 x 10(-4) M, and the maximum binding reached 1.2 mol of the synthetic polypeptide/mol of tubulin dimer. This synthetic polypeptide increased the rate and extent of tubulin polymerization and decreased the critical concentration of tubulin for polymerization. The polypeptide-induced tubulin polymers were morphologically normal microtubules and were disassembled by cold treatment. The common sequence (termed assembly-promoting sequence) was thus identified as the active site of 190-kDa microtubule-associated protein and tau for the promotion of microtubule assembly. The reconstitution system of microtubules with this synthetic polypeptide with assembly-promoting sequence may be useful to elucidate detailed molecular mechanism of the promotion of microtubule assembly by microtubule-associated proteins.
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PMID:A common amino acid sequence in 190-kDa microtubule-associated protein and tau for the promotion of microtubule assembly. 249 69

The gene for a beta-glucosidase from the extremely thermophilic bacterium Caldocellum saccharolyticum has been isolated from a genomic library and sequenced. An open reading frame identified by computer analysis of the sequence could encode a protein of Mr 54,400, which is close to the size of the polypeptide experimentally determined using maxicells. Analysis of the amino-terminal residues of the protein produced in Escherichia coli suggests that it is processed by a methionine aminopeptidase. A sequence within C. saccharolyticum DNA upstream of the beta-glucosidase gene was found to act as a promoter for expression of the thermophile gene in E. coli. The protein has been overproduced in E. coli and Bacillus subtilis where it retains its enzymatic activity and heat stability. There appears to be a single copy of the gene in Caldocellum DNA.
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PMID:Sequence structure and expression of a cloned beta-glucosidase gene from an extreme thermophile. 285 13

Cellular and subcellular distributions of axolinin, the 260-kilodalton (kD) microtubule-associated glycoprotein originally purified from squid axons, in various squid tissues such as optical lobes, bundles of small nerve fibers (fin nerves), giant stellate ganglia, skin, muscle, liver, and gill, were immunologically studied using monoclonal antibodies specifically recognizing the polypeptide chain of axolinin. The following results were obtained: (1) Axolinin is confined to squid neurons and skin; (2) axolinin is localized in the axon whereas another 260-kD microtubule-associated protein, MAP B, is localized in the cell bodies; and (3) axolinin is localized mainly in the peripheral part of the axoplasm of the squid giant axon. The last result has confirmed our previous conclusion obtained using polyclonal antisera against axolinin, which contain antibodies recognizing not only axolinin-specific epitopes but also nonspecific epitopes. The physiological importance of the localization of axolinin in axons and the skin is discussed based on its possible relationship to excitability function.
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PMID:Axolinin localization in the nervous tissue of squid revealed by monoclonal antibodies specific for axolinin: cellular and subcellular localization of axolinin in the squid neuron. 290 95


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