UNIPROT:P15088 - FACTA Search

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Query: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Glucagon1-21 has been prepared by treating native glucagon with carboxypeptidase A. Purified glucagon1-21 did not contain detectable methionine (less than 0.001 residue/mol) and the activity of the compound did not change after treatment with cyanogen bromide as has been shown with native glucagon. Glucagon1-21 stimulates hepatic adenylate cyclase activity to the same extent as native glucagon but with 0.1% the potency. Glucagon1-21 also displayed 0.1% the binding affinity of native glucagon to the glucagon receptor in hepatic membranes. Glucagon22-29 alone or in combination with glucagon1-21 did not activate adenylate cyclase or displase 125I-glucagon from its receptor. The finding that glucagon1-21 is a full agonist on adenylate cyclase is discussed in relation to the structure-function relationships required for the biological action of glucagon.
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PMID:A reassessment of structure-function relationships in glucagon. Glucagon1-21 is a full agonist. 21 Jan 80

Catalytically inactive, exchange-inert Co(III)-carboxypeptidase A has been prepared by reaction of Co(II)-carboxypeptidase A with the active-site-directed oxidizing agent m-chloroperbenzoic acid. Co(III)-carboxypeptidase A, isolated by affinity gel filtration chromatography, has the same amino acid composition and molecular weight as the starting material and contains 0.95 g-atom/mol of cobalt and 0.01 g-atom/mol of zinc. Its electron paramagnetic resonance, circular dichroic, magnetic circular dichroic, and visible absorption spectra are consistent with those of octahedral Co(III) model complexes. Co(III)-caboxypeptidase A is essentially devoid of catalytic activity toward both peptide and ester substrates of the native enzyme, and stopped-flow fluorescence studies with dansylated substrates show that it binds peptides, but not esters. Furthermore, the protein does not react with either type of substrate to yield a single turnover. The implications of these findings to the mechanism of action of carboxypeptidase A are discussed in the light of the "metal-carbonyl" and "metal-hydroxide" hypotheses. Since Co(III)-carboxypeptidase A does not bind esters, inner-sphere coordination to the metal appears to be necessary for ester binding. All attempts to prepare Co(III)-carboxypeptidase A by treatment of Co(II)-carboxypeptidase A with hydrogen peroxide according to previously published procedures (Kang, E.P., Storm, C.B., & Carson, F.W. (1975) J. Am. Chem. Soc. 97, 6723) have been unsuccessful, and the present results do not confirm earlier reports that Co(III)-carboxypeptidase A exhibits esterase activity or that its activity is dependent on the method of preparation of the precursor Co(II)-carboxypeptidase A (Jones, M.M., Hunt, J.B., Storm, C.B., Evans, P.S., Carson, F.W. & Pauli, W.J. (1977) Biochem. Biophys. Res. Commun. 75, 253). These findings call for a reexamination of mechanistic conclusions based on the assumption that Co(III)-carboxypeptidase A is an active esterase.
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PMID:Enzymatically inactive, exchange-inert Co(III)-carboxypeptidase A: role of inner sphere coordination in peptide and ester catalysis. 21 Jul 89

The gene order of the ml Moloney sarcoma virus (mlMSV) specific pP60gag (P60) was determined by direct chemical analysis of the polyprotein. P60 was cleaved with cyanogen bromide (CNBr) into eight partial and complete fragments ranging in mass from 10,000 daltons to 58,000 daltons. Peptide maps of these fragments were compared to maps of p15, p12, and three CNBr fragments of p30. The polarity of p15 and p12 in a CNBr fragment of P60 was determined by carboxypeptidase A digestion; likewise the CNBr fragments of p30 were ordered by aminopeptidase digestion. The linear arrangement of P60 CNBr fragments gave the gene order of NH2-p15-p12-p30-COOH. The m3 isolate of MSV expresses a P70 gag polyprotein. Peptide maps of 48,000-dalton CNBr fragments of m3 P70 and ml P60 were similar and suggested that both polyproteins were similar through the NH2-terminal two-thirds of p30. However, the presence of peptides unique to the 10,500-dalton COOH-terminal fragment of m1MSV p30 and not present in the p30 of either m3MSV or Moloney leukemia virus suggested that the gag gene deletion in the m1 isolate begins in the p30 reading frame.
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PMID:Chemical determination of the m1 Moloney sarcoma virus pP60gag gene order: evidence for unique peptides in the carboxy terminus of the polyprotein. 21 95

Polypeptide VII of cytochrome c oxidase was isolated and purified by gel filtration on Bio-Gel P-10 in 10% acetic acid. Automatic Edman degradation of this peptide chain was not successful, because it is blocked at the N-terminus. The amino acid analysis shows a relatively high content of hydrophilic residues (54%). On the basis of this analysis and the apparent molecular weight by sodium dodecyl sulfate gel electrophoresis and gel filtration, a chain length of about 80 residues was calculated. Among the tryptic peptides one blocked heptapeptide was found. Cleavage of this peptide with thermolysin gave two peptide fragments, one of which was not retained on a cation exchange resin. Mass spectrometric sequence determination of this peptide revealed the structure Ac-Ala-Glu-Asp for the N-terminus of polypeptide VII. Treatment with carboxypeptidase A at two different pH values showed that the C-terminal amino acid is isoleucine and the penultimate amino acid is lysine.
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PMID:Studies on cytochrome c oxidase, VII. Isolation and chemical characterization of polypeptide VII. 22 66

A group of active-site metal coordinating inhibitors of zinc proteases (carboxypeptidase A, thermolysin, Bacillus cereus neutral protease, and angiotensin-converting enzyme) have been synthesized and their properties investigated. Their general structures are R-SH and R-NH-PO2(O phi)H, where-S- or -O- serve as metal ligands and R refers to an amino acid or peptide group designed to interact with substrate recognition sites. These inhibitors can be extremely potent; thus, N-(2-mercaptoacetyl)-D-phenylalanine, e.g., inhibits carboxypeptidase A with a Kiapp of 2.2 x 10(-7) M. The spectral response of cobalt(II)-substituted thermolysin or carboxypeptidase A to the sulfur-containing inhibitors signals the direct interaction of the mercaptan with the metal. An S leads to Co(II) charge transfer band is generated near 340 nm and is detected by absorption, circular dichroism, and magnetic circular dichroism. The cobalt(II) spectra indicate both inner sphere coordination with sulfur and 4-coordination in the enzyme-inhibitor complex. Thus, the metal undergoes a simple substitution reaction, the inhibitor most likely displacing water at the fourth coordination site.
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PMID:Metal-coordinating substrate analogs as inhibitors of metalloenzymes. 23 May 2

Reaction of carboxypeptidase A crystals with diazotized arsanilic acid uniquely modifies Tyr-248 to form a monazo derivative, which-in solution-forms an intramolecular inner-sphere coordination complex in the active site zinc atom. tarsanilazocarboxypeptidase exhibits spectral properties that are closely similar to those of the model complex, tetrazolylazo-N-carbobenzoxytyrosine Zn2+, with a distinctive maximum at 510 nm. In addition, its circular dichroic spectrum reveals a negative extremum at this wavelength, also characteristic of this complex. Both spectra are exquisitely responsive to pth changes and serve to monitor formation and dissociation of the metal-azophenol complex. Two pKapp at 7.7 and 9.5 delineate the pH range over which the probe characteristics most effectively gauge conformational features of the active center of arsanilazcarboxypeptidase. Other environmental parameters, e.g., substrates and inhibitors, as well as crystallization of the enzyme also critically influence the formation and dissociation of the complex; the response of the probe suggests that they induce conformational movement of the azoTyr-248 residue away from the zinc atom. tthe now available chemical, functional, structural data bearing on the spatial relationships of Tyr-248 and Zn, both thought critical to catalysis, are evaluated, based on spectra of arsanilazo- and nitrocarboxypeptidase crystals and solutions as well as on detailed kinetic analyses of the native enzyme in both physical states and based on the X-ray structure analysis of the native enzyme and its Gly-L-Tyr complex. Collectively all of the data show that the conformation of carboxypeptidase in crystals differs from that in solution. Moreover, reexamination of the original X-ray maps reported in 1968 and thought to preclude a Tyr-248-Zn interaction now leads to the conclusion that in up to 25 per cent of the molecules in the crystals ttyr-248 interacts with the active site zinc atom (W.D. Lipscomb (1973), Proc. Nat. Acad. Sci U.S. 70, 3797). Thus, even in the crystals the enzyme exists in at least two different conformations. In one of these Tyr-248 is near while in the other it is far from the zinc atom. The spectral effects of Gly-L-Tyr and beta-phenylpropionate on solutions of arsanilazo- and of nitrocarboxypeptidase demonstrate that during the catalytic process Tyr-248 moves away from the zinc atom. This implies a mechanistic role for Tyr-248 different from that postulated on the basis of X-ray crystallographic analysis. Indeed, the proximity of ttyr-248 to the zinc atom, when altered by substrates and inhibitor, may reflect certain of the properties characteristic of the entatic, active site.
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PMID:Environment and conformation dependent sensitivity of the arsanilazotyrosine-248 carboxypeptidase A chromophore. 23 37

The magnetic circular dichroic (MCD) spectra of cobalt(II) sugstituted metalloenzymes have been studied and compared to a series of four-, five-, and six-coordinate cobalt(II) model complexes previously examined (T. A. Kaden et al. (1974), Inorg. Chem. 13, 2582). The MCD spectra of cobalt substituted carboxypeptidase A, procarboxypeptidase ta, and thermolysin are consistent with earlier deductions of tetrahedral coordination from absorption spectra and also with X-ray structure analysis. Inhibitors fail to alter their MCD spectra significantly. The MCD spectra of cobalt alkaline phosphatase and carbonic anhydrase are more complex and their pH dependence and alteration by inhibitors are discussed in terms of known cobalt(II) models.
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PMID:Magnetic circular dichroic spectra of cobalt(II) substituted metalloenzymes. 23 52

Fructose-diphosphate aldolase [ED 4.1.2.13] was isolated from horseshoe crab ( living fossil) muscle and some molecular and enzymatic properties were examined. The enzyme was a tetramer with a molecular weight of about 160,000. The enzyme activity was inhibited by reduction with borohydride in the presence of the substrate and was inactivated by carboxypeptidase A [EC 3.4.12.2] digestion. The pH optima for fructose-diphosphate (FDP) and fructose-1-phosphate (F1P) activities were 6.5--8 and 7.5--8.2, respectively. The ratio of FDP/F1P activities was 30 and Km values were 1.7 times 10- minus 5 M and 2.5 times 10- minus 3 M, respectively, for the two substrates. The horseshoe crab aldolase was classified as class 1, type A, based on the results obtained. Extensive homology in various properties of the enzyme was observed when it was compared with enzymes from other sources, though some differences could be found in the amino acid composition and in the kinetic properties.
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PMID:Fructose-diphosphate aldolase of Horseshoe crab (Tachypleus tridentatus). 23 86

The possible role of histidine residues in the catalytic function of carboxypeptidase Y from bakers' yeast has been investigated using site-specific reagents. Among the reagents tested, benzyloxy-L-phenylalanylchloromethane (Z-PheCH2Cl) was the most powerful inhibitor of the enzyme. It irreversibly inactivated both the peptidase and esterase activities with an apparent second order rate constant of 3.8 M-minus 1 S-minus 1; the D isomer caused essentially no effect on either activity. Inhibition by L-Z-PheCH2Cl, the reaction retarded by certain competitive inhibitors of the enzyme. Using radioactive L-Z-PheCH2Cl, the reaction with the enzyme was shown to be essentially stoichiometric. Diisopropylphosphorofluoridate (iPr2PF)-inactivated enzyme failed to react with Z-PheCH2Cl, and conversely, the Z-PheCH2Cl-inhibited enzyme failed to react with radioactive iPr2PF. Amino acid analyses of the Z-PheCH2Cl-inactivated enzyme revealed the loss of essentially 1 residue, with a concomitant yield of a 0.62 residue of N-t-carboxymethylhistidine. Since carboxypeptidase Y has a reactive serine at its active center, we concluded from these results that the mechanism involves a charge-relay system in the hydrolysis of peptide and ester substrates, as in chymotrypsin. An -SH group of carboxypeptidase Y was not affected during the reaction with L-Z-PheCH2Cl. The generic name "serine carboxypeptidase" has been proposed for carboxypeptidase Y and for the iPr2PF-sensitive carboxypeptidases from plants, molds, and animal tissues, in order to distinguish them from "metal carboxypeptidase" to which carboxypeptidase A (EC 3.4.12.2) and B (EC 3.4.12.3) belong.
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PMID:Evidence for an essential histidine in carboxypeptidase Y. Reaction with the chloromethyl ketone derivative of benzyloxycarbonyl-L-phenylalanine. 23 80

The enzyme carboxypeptidase A has been extensively studied and is thus a good candiate for chemical models and imitation. A model system was constructec which combined two of the three catalytic functional groups of the enzyme together with the appropriate substrate group, and cooperative effective catalysis was demonstrated. However, the mechanism which the model system used in enzyme-like conditions was unexpected, and this led to a study of the enzyme itself. Carboxypeptidase A was studied by examination of oxygen-18 exchange reactions and the ability of the enzyme to substitute only lytic agents, such as methanol, forthe water which is normally used. The result of these studies is proposed mechanism of action of this enzyme which accommodates the large amount of information already available, and which indicates that this enzyme uses a mechanism similar to that found in the model system. Approaches have also been made to an artificial enzyme which could hydrolyse amides. Cyclodextrin has been functionalized with two imidazole groups placed on opposite sides of the cavity. This material catalyses the hydrolysis of an amide, which binds to the cyclodextrin cavity and then is hydrolysed with the assistance of one imidazole in its basic form and the other one in its protonated form, acting together in a way reminiscent of the cooperation of some of the functional groups of hydrolytic enzymes.
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PMID:Studies on enzyme models and on the enzyme carboxypeptidase A. 24 79

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