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)

The magnetic susceptibilities of cobalt(II) and nickel(II) derivaties of carboxypeptidase A (CPA) follow the Curie law over a wide temperature range. The observed magnetic moments of Co(II)CPA and Ni(II)CPA are 4.77 +/- 0.15 and 2.53 +/- 0.10 Bohr Magnetons, respectively. The magnetic and spectral properties of Ni(II)CPA are consistent only with an octahedral ground-state geometry, whereas Co(II)CPA has a probable five-coordinate structure. The results establish ordinary metal-ion ground states for two metallocarboxypeptidase A derivatives which exhibit full peptidase activity.
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PMID:The nature of the ground states of cobalt(II) and nickel(II) carboxypeptidase A. 450 46

The catalytic role of the metal ion in bovine carboxypeptidase A (peptidyl-L-amino acid hydrolase; EC 3.4.12.2) is investigated by application of cryoenzymologic and electron paramagnetic resonance methods with use of the Co2+-reconstituted enzyme. Incorporation of 17O into oxygen-donor ligands induces a substantial change in the spin-lattice relaxation probability of the paramagnetic ion. While a change in spin-lattice relaxation is observed for the free Co2+-enzyme in 17O-enriched water, no change is observed for the enzyme complexed to glycyl-L-tyrosine. These results are consistent with x-ray crystallographic studies showing that the metal-bound water molecule in the active site is displaced upon binding of the peptide inhibitor. A change in spin-lattice relaxation of the Co2+ ion in the mixed anhydride, acyl-enzyme intermediate formed with the specific ester substrate O-(trans-p-chlorocinnamoyl)-L-beta-phenyllactate is observed when 17O is enriched either into water or into the carbonyl oxygen position of the scissile bond of the substrate. Since the protein supplies three amino acid side chains as ligands to the metal ion, these results indicate that the metal ion is altered from a tetra-coordinate species in the free enzyme to a penta-coordinate species in the acyl-enzyme reaction intermediate. In addition, the results provide structural support for our assignment of ionization of a metal-bound water molecule in rate-limiting deacylation (Makinen, M. W., Kuo, L. C., Dymowski, J. J., and Jaffer, S. (1979) J. Biol. Chem. 254, 356-366) and affirm that the metal-hydroxide species is the nucleophile responsible for the breakdown of the mixed anhydride reaction intermediate of carboxypeptidase A.
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PMID:Hydrolysis of esters by carboxypeptidase A requires a penta-coordinate metal ion. 627 27

The carboxypeptidase A purified from goat pancreas has been found to have a molecular weight of 34,600 +/- 300. The enzyme is a zinc-protein and the molar ratio of zinc to enzyme protein is 1:1. Removal of zinc yields an inactive apocarboxypeptidase A. The loss of activity of the native enzyme and restoration of the activity of the apoenzyme run parallel with the zinc content of the protein, thus showing the essentiality of zinc for the enzymatic activity. The exact role of zinc in the enzyme catalysed hydrolysis of the acylpeptides has been investigated after preparing metallo proteins by substituting the zinc of carboxypeptidase A with Co2+, Mn2+, Ni2+, Fe2+, Cd2+, Hg2+, and Cu2+ and determining the kinetic parameters of such metalloproteins. These studies indicate that the metal ion is involved in both binding the substrate and polarising the peptide bond.
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PMID:Role of metal ions in goat carboxypeptidase A-catalysed hydrolysis of acyl peptides. 650 15

Cryospectrokinetic studies provide concurrent structural, kinetic, and chemical data on short-lived intermediates in the course of the interactions of enzymes with their substrates and of other, similar pairs of biomolecules. Subzero temperatures extend the lifetimes of these intermediates and, combined with rapid-mixing and rapid-scanning instrumentation, allow simultaneous measurement of both their physical-chemical and kinetic characteristics. For carboxypeptidase A, the spectra of a chromophoric, enzymatically functional cobalt atom at the active site signal the structure of the coordination complex during catalysis, while radiationless energy transfer between enzyme tryptophans and the fluorescent dansyl blocking group of rapidly hydrolyzed peptide and ester substrates provides the basis for measurement of the rates of formation and breakdown of intermediates. Subzero radiationless energy transfer kinetic studies of the zinc and cobalt enzymes disclose two intermediates in the hydrolysis of both peptides and esters and furnish all the rate and equilibrium constants for the reaction scheme E + S in equilibrium ES1 in equilibrium ES2----E + P. The chemical and kinetic data indicate that neither of these is an acylenzyme intermediate. Both absorption and EPR spectra of the ES2 reaction intermediates consistently demonstrate the formation of transient metal complexes, differences between the effects induced by peptides and esters, and strong similarities between those induced by all peptides on the one hand and all esters on the other. The marked alterations of the cobalt spectra likely reflect the coordination of a substrate carboxyl and/or carbonyl group to the metal at a critical step in the course of catalysis. The cryospectrokinetic approach developed here in the mechanistic study of this metalloenzyme is applicable to the examination of transients of biochemical reactions in general. It will allow molecular characterization of previously elusive intermediates and greatly magnify the range of mechanistic questions that can be answered.
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PMID:Cryospectrokinetic characterization of intermediates in biochemical reactions: carboxypeptidase A. 659 Nov 78

Procine kidney aminoacylase (E.C. 3.5.1.14) is inhibited neither by phenylmethylsulfonylfluoride nor by alkylating agents (iodoacetate or iodoacetamide). Therefore reaction mechanisms including the formation of acylenzyme through seryl or cysteinyl side chains are ruled out. The enzyme is a metalloprotein that can be inactivated by ECTA and in which Co2+ is an equivalent substitute for the Zn2+ ion. The two SH groups/subunit of aminoacylase exhibit different reactivites to p-hydroxymercuribenzoate. Modification of the less reactive SH group reversibly inactivates the enzyme. We suggest that this cysteinyl side chain is situated in the active center or in its immediate vicinity. On the basis of our results we suppose a close similarity between aminoacylase and carboxypeptidase A with respect to their active center and catalytic mechanism.
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PMID:Investigation of the active center and catalytic mechanism of porcine kidney aminoacylase: a model of the active center. 677

At pH greater than 7 the absorption and magnetic circular dichroic spectra of cobalt carboxypeptidase A are insensitive to anions [Latt, S. A., & Vallee, B. L. (1971) Biochemistry 10, 4263-4270], but at pH less than 6 chloride and other anions perturb them in a manner specific for each anion. Lowering of the pH apparently facilitates the entry of an anion into the metal coordination sphere, suggesting that an acidic group normally stabilizes a metal-coordinated water molecule against displacement. The lack of sensitivity to anions at pHs between 7 and 9--when the enzyme is maximally active--and its evident abolition upon protonation of an active-site group are consistent with this interpretation. Selective modification of cobalt carboxypeptidase at Glu-270 using a carbodiimide affinity reagent generates sensitivity to anions at pH 7 very similar to that of the unmodified enzyme at pH approximately 5. This suggests that the group stabilizing the metal-coordinated water is the catalytically essential carboxylate of Glu-270. These and related results provide evidence for a mechanistically important interaction of Glu-270 with a metal-bound water molecule.
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PMID:Spectral properties of cobalt carboxypeptidase A. Interaction of the metal atom with anions. 684 91

Saturation kinetics are observed in the inhibition of cobalt carboxypeptidase A by the chelating agent 1,10-phenanthroline. The association constant K1 for the formation of the enzyme-metal-ligand ternary complex and k2, the rate of breakup of the ternary complex, have been obtained. A mechanism is proposed to account for the pH profile of the reaction which, in conjunction with K1, permits the calculation of the individual rate constants k1, k-1, k2, k3. The magnitude of the rate constant k1 suggests that cobalt(II) in CoCPA is five-coordinate. Similar but less extensive studies on inhibition by 2,2'-bipyridyl and 8-hydroquinoline-5-sulfonic acid have also been carried out.
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PMID:Inhibition of cobalt(II) carboxypeptidase A by ligands. Kinetic evidence for the formation of a ternary enzyme-metal-ligand complex. 719 Sep 99

Complexes of cobalt(II) and zinc(II) which involve monodentate coordination of two alkyl carboxylate and two imidazole ligands in a slightly distorted tetrahedral fashion have visible and magnetic circular dichroism spectra remarkably similar to the cobalt(II)-substituted proteolytic enzymes thermolysin and carboxypeptidase A. Single crystal x-ray structure determinations on [Co(C2H5COO)2Im2], Im = imidazole, and its zinc counterpart reveal only minor structural differences between the cobalt and zinc species. Electron paramagnetic resonance spectra of cobalt(II) doped into zinc(II) complexes with known structures demonstrate the extreme sensitivity of the g-values to minor structural differences.
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PMID:Structural and electronic mimics of the active site of cobalt(II)-substituted zinc metalloenzymes. 744 Dec 45

Voltage-gated whole-cell currents were recorded from cultured microglial cells which had been developed in the presence of the macrophage/microglial growth factor granulocyte/macrophage colony-stimulating factor. Outward K+ currents (IK) were most prominent in these cells. IK could be activated at potentials more positive than -40 mV. Half-maximal activation of IK was achieved at -13.8 mV and half-maximal inactivation of IK was determined at -33.8 mV. The recovery of IK from inactivation was described by a time constant of 7.9 sec. For a tenfold change in extracellular K+ concentration the reversal potential of IK shifted by 54 mV. Extracellularly applied 10 mM tetraethylammonium chloride reduced IK by about 50%, while 5 mM 4-aminopyridine almost completely abolished IK. Several divalent cations (Ba2+, Cd2+, Co2+, Zn2+) reduced current amplitudes and shifted the activation curve of IK to more positive values. Charybdotoxin (IC50 = 1.14 nM) and noxiustoxin (IC50 = 0.89 nM) blocked IK in a concentration-dependent manner, whereas dendrotoxin and mast cell degranulating peptide had no effect on the current amplitudes. The outward K+ currents showed a frequency dependence when depolarizing pulses were applied at a frequency of 1 Hz. A frequency-independent outward current (IK') characterized by the same activation behavior as IK was detected. IK' was blocked completely by 10 nM charybdotoxin or by 10 nM noxiustoxin. In contrast to its effect on IK, 10 mM tetraethylammonium chloride did not reduce IK'.
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PMID:Properties of voltage-gated potassium currents of microglia differentiated with granulocyte/macrophage colony-stimulating factor. 856 50

Perturbed angular correlation of gamma-rays (PAC) spectroscopy has been used to investigate the angiotensin-I-converting enzyme (ACE) of rabbit lung. By substituting the zinc ions in ACE with excited 111mCd2+ ions, analysis of PAC spectra gave directly the percentage of cadmium ions bound to ACE. The result of the analysis was a dissociation constant of about 1 microM for the cadmium-ACE complex, and a stoichiometry of two moles cadmium/mole enzyme. Cadmium binding is thus about two orders of magnitude weaker than zinc binding to ACE but two orders of magnitude stronger than cobalt binding. PAC spectra monitor the nuclear quadrupole interaction (NQI) for 111mCd. The NQI for ACE exhibits very low frequencies in the PAC spectra with a rather large spectral broadening. In the presence of the inhibitor ramiprilat, the frequencies increase but the spectral broadening is about the same as for ACE without inhibitor. When the inhibitor captopril is added, very high frequencies are obtained consistent with sulfur binding, but now with a narrower distribution of NQI's. A simple molecular orbital analysis of the obtained NQI's has been performed, using a coordination sphere of two His, one Glu residue and a solvent ligand, equivalent to the zinc ligands in thermolysin and carboxypeptidase. The calculated spectral parameters could be modelled with the measured parameters if the solvent ligand is H2O in free ACE, carboxylate from ramiprilat in the ACE-ramiprilat complex and a mercapto group in the ACE-captopril complex. The coordination geometry for cadmium carboxypeptidase obtained by X-ray diffraction gives a calculated set of NQI parameters consistent with the measured parameters for cadmium in the captopril-ACE complex using a mercapto group as the solvent ligand. However, for ACE and its complex with ramiprilat, a significant distortion of the cadmium geometry for carboxypeptidase A had to be adopted in order to calculate NQI's close to the experimental values.
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PMID:Effect of inhibitors on the coordination geometries of cadmium at the metal sites in angiotensin-I-converting enzyme. 857 35

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