Your search keyword '"C. LUCHINAT"' showing total 20 results

1. Elucidating the concentration-dependent effects of thiocyanate binding to carbonic anhydrase.

Author

Silva JM, Cerofolini L, Carvalho AL, Ravera E, Fragai M, Parigi G, Macedo AL, Geraldes CFGC, and Luchinat C

Subjects

Humans, Thiocyanates, Ligands, Cobalt chemistry, Binding Sites, Protein Binding, Carbonic Anhydrases chemistry

Abstract

Many proteins naturally carry metal centers, with a large share of them being in the active sites of several enzymes. Paramagnetic effects are a powerful source of structural information and, therefore, if the native metal is paramagnetic, or it can be functionally substituted with a paramagnetic one, paramagnetic effects can be used to study the metal sites, as well as the overall structure of the protein. One notable example is cobalt(II) substitution for zinc(II) in carbonic anhydrase. In this manuscript we investigate the effects of sodium thiocyanate on the chemical environment of the metal ion of the human carbonic anhydrase II. The electron paramagnetic resonance (EPR) titration of the cobalt(II) protein with thiocyanate shows that the EPR spectrum changes from A-type to C-type on passing from 1:1 to 1:1000-fold ligand excess. This indicates the occurrence of a change in the electronic structure, which may reflect a sizable change in the metal coordination environment in turn caused by a modification of the frozen solvent glass. However, paramagnetic nuclear magnetic resonance (NMR) data indicate that the metal coordination cage remains unperturbed even in 1:1000-fold ligand excess. This result proves that the C-type EPR spectrum observed at large ligand concentration should be ascribed to the low temperature at which EPR measurements are performed, which impacts on the structure of the protein when it is destabilized by a high concentration of a chaotropic agent., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

2. Strategies of signal assignments in paramagnetic metalloproteins. An NMR investigation of the thiocyanate adduct of the cobalt (II)-substituted human carbonic anhydrase II.

Author

Bertini I, Jonsson BH, Luchinat C, Pierattelli R, and Vila AJ

Subjects

Humans, Molecular Structure, Molecular Weight, Thiocyanates chemistry, Carbonic Anhydrases chemistry, Cobalt chemistry, Magnetic Resonance Spectroscopy, Metalloproteins chemistry

Abstract

The title protein with MW 30,000 containing high-spin cobalt (II) has been thoroughly investigated through 1H NMR spectroscopy with the aid of selectively deuterated amino acids and 15N enrichment. The aim is that of showing the potentiality of the approach when local information by NMR is needed and the X-ray structure is available. The potential use of the pseudocontact shift is discussed; 90, 200, and 600 MHz spectrometers are used to investigate a spherical region at various distances from the metal ion. More than 35 signals of protons around cobalt (II) have been assigned.

Published

1994

3. The interaction of acetate and formate with cobalt carbonic anhydrase. An NMR study.

Author

Bertini I, Luchinat C, Pierattelli R, and Vila AJ

Subjects

Amino Acid Sequence, Binding Sites, Magnetic Resonance Spectroscopy, Molecular Sequence Data, Protein Conformation, Acetates chemistry, Carbonic Anhydrases chemistry, Cobalt chemistry, Formates chemistry

Abstract

The interaction of formate and acetate ions with cobalt-substituted carbonic anhydrase (CA) has been investigated through 13C-NMR and one-dimensional and two-dimensional 1H-NMR spectroscopy. 13C data on formate are consistent with a regularly coordinated ligand, as previously proposed for the acetate anion [Bertini, I., Luchinat, C. & Scozzafava, A. (1977) J. Chem. Soc. Dalton Trans., 1962-1965]. 1H-NOE experiments on both anions give evidence of through-space interactions between ligand protons and protein protons. The latter are assigned to specific residues in the active cavity through nuclear Overhauser effect spectroscopy (NOESY) experiments. The 13C-derived and 1H-derived constrains allow reliable docking of these ligands in the active-site cavity. The resulting geometries are similar to one another and consistent with five-coordinated structures around the metal ion, as previously proposed from electronic spectroscopy [Bertini, I., Canti, G., Luchinat, C. & Scozzafava, A. (1978) J. Am. Chem. Soc. 100, 4873-4877]. The results are discussed in light of the current debate on anion binding to metal ions in carbonic anhydrase [Lindahl, M., Svensson, A. & Liljas, A. (1992) Proteins, in the press]; Bertini, I., Luchinat, C., Pierattelli, R. & Vila, A. J. (1992) Inorg. Chem., in the press; Banci, L. & Merz, K. (1992) unpublished results] and, in particular, of the proposed long Zn-O distance found in the recent X-ray results on the formate adduct [Hakanson, K., Carlsson, M., Svensson, A. & Liljas, A. (1992) J. Mol. Biol., in the press].

Published

1992

4. 1H nuclear magnetic resonance investigation of cobalt(II) substituted carbonic anhydrase.

Author

Banci L, Dugad LB, La Mar GN, Keating KA, Luchinat C, and Pierattelli R

Subjects

Amino Acid Sequence, Animals, Cattle, Magnetic Resonance Spectroscopy methods, Models, Molecular, Molecular Sequence Data, Protein Conformation, Carbonic Anhydrases chemistry, Cobalt pharmacology, Isoenzymes chemistry

Abstract

The structure of ClO4 and NO3 adducts of cobalt(II) substituted bovine carbonic anhydrase have been investigated through 1D NOE and 2D 1H nuclear magnetic resonance (NMR) spectroscopy. For the first time two-dimensional NMR techniques are applied to paramagnetic metalloproteins other than iron-containing proteins. Several active site signals have been assigned to specific protons on the grounds of their scalar and dipolar connectivities and T1 values. The experimental dipolar shifts for the protons belonging to noncoordinated residues have allowed the identification of a plausible orientation of the magnetic susceptibility tensor around the cobalt ion as well as of the magnitude and the anisotropy of the principal susceptibility values. In turn, a few more signals have been tentatively assigned on the grounds of their predicted dipolar shifts. The two inhibitor derivatives have a very similar orientation but a different magnitude of the chi tensor, and the protein structure around the active site is highly maintained. The results encourage a more extensive use of the two-dimensional techniques for obtaining selective structural information on the active site of metalloenzymes. With this information at hand, comparisons within homologous series of adducts with various inhibitors and/or mutants of the same enzyme of known structure should be possible using limited sets of NMR data.

Published

1992

5. Investigation of the system copper(II) carbonic anhydrase and HCO3-/CO2.

Author

Bertini I, Canti G, Luchinat C, and Borghi E

Subjects

Animals, Binding Sites, Cattle, Humans, Magnetic Resonance Spectroscopy, Mathematics, Bicarbonates metabolism, Carbon Dioxide metabolism, Carbonic Anhydrases metabolism, Copper, Isoenzymes metabolism

Abstract

Copper(II) substituted human and bovine carbonic anhydrases B in the presence of bicarbonate have been investigated in solution through water-solvent proton nuclear magnetic resonance (nmr) at variable magnetic fields. HCO3-, contrary to all the other monoanionic inhibitors, partially reduces the water proton relaxation rates. This has been accounted for on the basis of the availability within the active cavity of two coordination positions partially overlapping. 13C-nmr measurements on both CO2 and HCO3- confirm that HCO3- binds the metal, whereas CO2 interacts with the paramagnetic center at nonbonding distance. The upper limit for the CO2 in equilibrium HCO3- interconversion has been estimated to be 10 sec-1.

Published

1983

6. Different behavior of sulfonamides with respect to copper-substituted bovine and human carbonic anhydrases.

Author

Bertini I, Luchinat C, Monnanni R, and Scozzafava A

Subjects

Animals, Cattle, Electron Spin Resonance Spectroscopy, Humans, Magnetic Resonance Spectroscopy, Carbonic Anhydrases metabolism, Copper metabolism, Sulfonamides metabolism

Published

1982

7. Investigation of the system cobalt(II) bovine carbonic anhydrase B-trichloroacetaldehyde.

Author

Bertini I, Borghi E, Canti G, and Luchinat C

Subjects

Animals, Cattle, Hydrogen-Ion Concentration, Kinetics, Magnetic Resonance Spectroscopy, Protein Binding, Thermodynamics, Carbonic Anhydrases blood, Chloral Hydrate, Cobalt

Abstract

The interactions between hydrated trichloroacetaldehyde and cobalt(II)bovine carbonic anhydrase B have been investigated as a function of pH by means of electronic spectroscopy of FT nmr spectroscopy. The hydrated aldehyde is bound to the metal ion and its apparent affinity constant is pH dependent with a bell-shaped profile. The kinetic parameters of the dissociation process have also been determined.

Published

1979

8. Interaction of cobalt-bovine carbonic anhydrase with the acetate ion.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Cattle, Kinetics, Magnetic Resonance Spectroscopy, Protein Binding, Protein Conformation, Spectrophotometry, Acetates pharmacology, Carbonic Anhydrases metabolism, Cobalt pharmacology

Abstract

The visible spectra of solutions of cobalt(II) bovine carbonic anhydrase (carbonate hydro-lyase, EC 4.2.1.1) with increasing amounts of acetate have allowed the determination of the apparent inhibition constants and of the extrapolated limit spectra of the completely bound enzyme. The electronic spectra have been interpreted on the basis of the presence of five coordinate adduct species. 13C and 1H NMR spectra have also been recorded and discussed on the basis of the metal enzyme-acetate type of interactions. Titrations by means of NMR spectroscopy of the acetate-cobalt(II) bovine carbonic anhydrase with p-toluenesulfonamide and azide indicate the existence of two binding sites for the acetate group.

Published

1976

9. Binding affinity of bicarboxylate ions for cobalt (II) bovine carbonic anhydrase.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Cattle, Erythrocytes enzymology, Kinetics, Magnetic Resonance Spectroscopy, Protein Binding, Spectrophotometry, Thermodynamics, Carbonic Anhydrases blood, Cobalt, Dicarboxylic Acids

Abstract

The affinity of bicarboxylate ions (from oxalate to glutarate) for cobalt (II) bovine carbonic anhydrase has been investigated and compared with that of acetate and propionate. The oxalate ion shows a much greater affinity for the enzyme than acetate, whereas the other bicarboxylate ions have very little tendency to bind the enzyme. In every case, and particularly for the oxalate, the apparent affinity constants dramatically increase with decreasing pH. On the basis of the electronic spectra a five-coordinate structure is proposed for all of the above derivatives. Carbon-13 NMR data have been discussed in terms of the oxalate ion chelating the metal ion and/or interacting with the wall of the active cavity.

Published

1978

10. The structure of cobalt(II)-substituted carbonic anhydrase and its implications for the catalytic mechanism of the enzyme.

Author

Bertini I and Luchinat C

Subjects

Animals, Cattle, Hydrogen-Ion Concentration, Kinetics, Protein Binding, Spectrophotometry, Carbonic Anhydrases metabolism, Cobalt pharmacology

Published

1984

11. A new class of inhibitors capable of binding both the acidic and alkaline forms of carbonic anhydrase.

Author

Alberti G, Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Binding Sites, Cattle, Humans, Hydrogen-Ion Concentration, Imidazoles metabolism, Magnetic Resonance Spectroscopy, Spectrophotometry, Structure-Activity Relationship, Tetrazoles metabolism, Carbonic Anhydrase Inhibitors metabolism, Carbonic Anhydrases metabolism

Published

1981

12. Evidence of exchangeable protons in the acidic form of manganese(II) bovine carbonic anhydrase B.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Carbonic Anhydrase Inhibitors pharmacology, Cations, Divalent, Cattle, Isoelectric Point, Ligands, Protons, Spectrophotometry, Water, Apoenzymes metabolism, Apoproteins metabolism, Carbonic Anhydrases metabolism, Isoenzymes metabolism, Manganese metabolism

Published

1978

13. Water exchange at the active site of carbonic anhydrase. A synthesis of the OH- and H2O-models.

Author

Koenig SH, Brown RD 3rd, Bertini I, and Luchinat C

Subjects

Binding Sites, Cobalt metabolism, Magnetic Resonance Spectroscopy, Zinc metabolism, Carbonic Anhydrases metabolism, Models, Chemical, Water metabolism

Abstract

We have measured the paramagnetic contribution to the magnetic relaxation rate of solvent protons in highly purified, buffer- and salt-free solutions of Co(2+)-substituted human carbonic anhydrase B (HCAB), as a function of pH in the range 5.5-10 and as a function of magnetic field. We have also measured the optical absorption at 640 nm to characterize the enzyme. The relaxation rates vary with pH much as does the CO(2) hydration activity, increasing with increasing pH. We find that the relaxation rates at all intermediate values of pH can be described as linear combinations of the rates obtained at the extremes of pH used, indicating the existence of low- and high-pH forms of the enzyme with pH-dependent concentrations. The optical data can be similarly represented. The fraction of high-pH form present, determined from either the relaxation or optical data, has a pK(a) of approximately 7.6 when approximated by a single ionization. The data are very similar to that for HCAB in the presence of buffer, in contrast to the bovine enzyme for which the pK(a) is affected substantially by the presence of sulfate. Previous analysis of the high relaxation rates at high pH indicated rapid exchange of Co(2+)-liganded protons, possible only if these exchanging protons were conveyed by water molecules. On the other hand, the present demonstration of the existence of two forms of HCAB in highly purified solutions, coupled with other data, argues strongly for ionization of a water molecule ligand of the metal ion at the active site, with OH(-) as the solvent-donated ligand at high pH. We propose a mechanism of ligand exchange at high pH that reconciles these ostensibly conflicting requirements by invoking a pentacoordinate intermediate having both OH(-) and H(2)O as ligands. Proton exchange can be rapid between these ligands because charge transfer without net ionization can occur, so that the leaving water can carry away the initial OH(-). The low-pH form is a thermal mixture of tetra- and pentacoordinate species, the latter having low relaxation rates by analogy with inhibitor derivatives of the enzyme and model systems. The proposed associative ligand-exchange mechanism reconciles the distinctions between the OH- and H(2)O-models of carbonic anhydrase by merging them, providing the first model is consistent with the observed pH dependence of hydration activity, optical absorption, and solvent magnetic relaxation.

Published

1983

14. Interaction of cobalt(II) bovine carbonic anhydrase with aniline, benzoate, and anthranilate.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Cattle, Electrochemistry, Magnetic Resonance Spectroscopy, Aniline Compounds, Benzoates, Carbonic Anhydrases, Cobalt, ortho-Aminobenzoates

Published

1977

15. Evidence of exchangeable protons in the donor groups of the acidic form of cobalt bovine carbonic anhydrase B.

Author

Bertini I, Canti G, Luchinat C, and Scozzafava A

Subjects

Animals, Cattle, Electron Spin Resonance Spectroscopy, Hydrogen-Ion Concentration, Isoenzymes, Ligands, Protein Binding, Carbonic Anhydrases, Cobalt

Published

1977

16. A 31P NMR study of phosphate in presence of cobalt(II)- and copper(II)- substituted bovine carbonic anhydrase B.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Cations, Divalent, Cattle, Cobalt, Copper, Hydrogen-Ion Concentration, Ligands, Magnetic Resonance Spectroscopy, Phosphates, Zinc, Carbonic Anhydrases

Published

1978

17. Interactions between alpha-amino acids and cobalt(II) bovine-carbonic anhydrase.

Author

Bertini I, Luchinat C, and Scozzafava A

Subjects

Animals, Cattle, Hydrogen-Ion Concentration, Models, Biological, Protein Binding, Spectrophotometry, Alanine pharmacology, Carbonic Anhydrases metabolism, Cobalt pharmacology, Glycine pharmacology

Abstract

The results of a study on the interaction between cobalt(II) bovine carbonic anhydrase and the alpha-amino acids L(+) and D(-)alanine, glycine and betaine are reported. L(+)alanine and glycine have been found to have larger affinity for the enzyme than D(-)alanine whereas no sizable affinity is shown by betaine. The electronic spectra indicate that these systems are similar to that containing the acetate ion. Utilizing the inhibition properties of L(+)alanine at various pH an analysis of the species involved in the inhibition reaction is presented.

Published

1977

18. High spin cobalt(II) as a probe for the investigation of metalloproteins

Author

I, Bertini and C, Luchinat

Subjects

Magnetic Resonance Spectroscopy, Carboxypeptidases A, Chemical Phenomena, Chemistry, Physical, Circular Dichroism, Alcohol Dehydrogenase, Transferrin, Carboxypeptidases, Cobalt, Ligands, Alcohol Oxidoreductases, Liver, Metalloproteins, Electrochemistry, Animals, Humans, Carbonic Anhydrases

Published

1984

19. Investigation of the system copper(II) carbonic anhydrase and HCO3-/CO2

Author

I, Bertini, G, Canti, C, Luchinat, and E, Borghi

Subjects

Isoenzymes, Bicarbonates, Binding Sites, Magnetic Resonance Spectroscopy, Animals, Humans, Cattle, Carbon Dioxide, Copper, Mathematics, Carbonic Anhydrases

Abstract

Copper(II) substituted human and bovine carbonic anhydrases B in the presence of bicarbonate have been investigated in solution through water-solvent proton nuclear magnetic resonance (nmr) at variable magnetic fields. HCO3-, contrary to all the other monoanionic inhibitors, partially reduces the water proton relaxation rates. This has been accounted for on the basis of the availability within the active cavity of two coordination positions partially overlapping. 13C-nmr measurements on both CO2 and HCO3- confirm that HCO3- binds the metal, whereas CO2 interacts with the paramagnetic center at nonbonding distance. The upper limit for the CO2 in equilibrium HCO3- interconversion has been estimated to be 10 sec-1.

Published

1983

20. Water exchange at the active site of carbonic anhydrase. A synthesis of the OH- and H2O-models

Author

S H, Koenig, R D, Brown, I, Bertini, and C, Luchinat

Subjects

Zinc, Binding Sites, Magnetic Resonance Spectroscopy, Models, Chemical, Water, Cobalt, Articles, Carbonic Anhydrases

Abstract

We have measured the paramagnetic contribution to the magnetic relaxation rate of solvent protons in highly purified, buffer- and salt-free solutions of Co(2+)-substituted human carbonic anhydrase B (HCAB), as a function of pH in the range 5.5-10 and as a function of magnetic field. We have also measured the optical absorption at 640 nm to characterize the enzyme. The relaxation rates vary with pH much as does the CO(2) hydration activity, increasing with increasing pH. We find that the relaxation rates at all intermediate values of pH can be described as linear combinations of the rates obtained at the extremes of pH used, indicating the existence of low- and high-pH forms of the enzyme with pH-dependent concentrations. The optical data can be similarly represented. The fraction of high-pH form present, determined from either the relaxation or optical data, has a pK(a) of approximately 7.6 when approximated by a single ionization. The data are very similar to that for HCAB in the presence of buffer, in contrast to the bovine enzyme for which the pK(a) is affected substantially by the presence of sulfate. Previous analysis of the high relaxation rates at high pH indicated rapid exchange of Co(2+)-liganded protons, possible only if these exchanging protons were conveyed by water molecules. On the other hand, the present demonstration of the existence of two forms of HCAB in highly purified solutions, coupled with other data, argues strongly for ionization of a water molecule ligand of the metal ion at the active site, with OH(-) as the solvent-donated ligand at high pH. We propose a mechanism of ligand exchange at high pH that reconciles these ostensibly conflicting requirements by invoking a pentacoordinate intermediate having both OH(-) and H(2)O as ligands. Proton exchange can be rapid between these ligands because charge transfer without net ionization can occur, so that the leaving water can carry away the initial OH(-). The low-pH form is a thermal mixture of tetra- and pentacoordinate species, the latter having low relaxation rates by analogy with inhibitor derivatives of the enzyme and model systems. The proposed associative ligand-exchange mechanism reconciles the distinctions between the OH- and H(2)O-models of carbonic anhydrase by merging them, providing the first model is consistent with the observed pH dependence of hydration activity, optical absorption, and solvent magnetic relaxation.

Published

1983