Metal ion function in carbonic anhydrase.

The purpose of this review is to present an up-to-date account of the chemistry of the metal ion in the enzyme carbonic anhydrase. The interest lies in how the study of the metal may lead to deductions concerning the chemistry of the enzyme's action and in the way that metalloenzyme chemistry seems to demand a new appraisal of some aspects of the established chemistry of metal complexes.

[1]  D. B. Chesnut,et al.  A spin label investigation of the active site of an enzyme. Bovine carbonic anhydrase. , 1971, Journal of the American Chemical Society.

[2]  R. Khalifah,et al.  The carbon dioxide hydration activity of carbonic anhydrase. I. Stop-flow kinetic studies on the native human isoenzymes B and C. , 1971, The Journal of biological chemistry.

[3]  M. Caplow Bromine catalysis for carbon dioxide hydration and dehydration and some observations concerning the mechanism of carbonic anhydrase. , 1971, Journal of the American Chemical Society.

[4]  D. Foster,et al.  Cobalt93)-promoted hydrolysis of glycine amides. Intramolecular and intermolecular hydrolysis following the base hydrolysis of the cis-[Co(en)2Br(glyNR1R2]2+ ions. , 1970, Journal of the American Chemical Society.

[5]  M. Applebury,et al.  Phosphate binding to alkaline phosphatase. Metal ion dependence. , 1970, The Journal of biological chemistry.

[6]  E. Kaiser,et al.  The binding of 4-hydroxy-3-nitrobenzenesulfonamide, a reporter group labeled inhibitor, to carbonic anhydrases. , 1970, Journal of the American Chemical Society.

[7]  S. H. Koenig,et al.  Nuclear magnetic relaxation dispersion in protein solutions. IV. Proton relaxation at the active site of carbonic anhydrase. , 1970, The Journal of biological chemistry.

[8]  J. O. Alben,et al.  Infrared studies of carbon monoxide bound to hemocyanin and to simple copper complexes , 1970 .

[9]  R. Ward Zinc environmental differences in carbonic anhydrase isozymes. , 1970, Biochemistry.

[10]  D. Koshland,et al.  A source for the special catalytic power of enzymes: orbital steering. , 1970, Proceedings of the National Academy of Sciences of the United States of America.

[11]  J. Earley,et al.  Carbon dioxide catalysis of reactions of chromium(III). I. Oxygen exchange of hydroxopentaamminechromium(III) ion , 1970 .

[12]  R. H. Prince,et al.  The mechanism of octahedral complex formation by labile metal ions , 1970 .

[13]  M. J. Blandamer Structure and properties of aqueous salt solutions , 1970 .

[14]  T. Steitz,et al.  X-ray diffraction studies of enzymes. , 1970, Annual review of biochemistry.

[15]  R. Wolfenden,et al.  Transition State Analogues for Enzyme Catalysis , 1969, Nature.

[16]  E. Kaiser,et al.  Carbonic anhydrase catalyzed hydrolysis of 2-hydroxy-5-nitro-.alpha.-toluenesulfonic acid sultone , 1969 .

[17]  R. Ward Chlorine-35 nuclear magnetic resonance studies of a zinc metalloenzyme carbonic anhydrase , 1969 .

[18]  J. Sturtevant,et al.  The enthalpy of binding of various transition metal ions to bovine apocarbonic anhydrase. , 1969, Biochemistry.

[19]  D. H. Lo,et al.  Molecular geometry and bond energy. III. Cyclooctatetraene and related compounds , 1969 .

[20]  R. J. Williams,et al.  Spectroscopy and structure of hemerythrin. , 1969, Archives of biochemistry and biophysics.

[21]  Y. Pocker,et al.  The catalytic versatility of erythrocyte carbonic anhydrase. 8. Deuterium solvent isotope effects and apparent activation parameters for the enzyme-catalyzed hydrolysis of p-nitrophenyl acetate. , 1968, Biochemistry.

[22]  J. Edsall MULTIPLE MOLECULAR FORMS OF CARBONIC ANHYDRASE IN ERYTHROCYTES * , 1968, Annals of the New York Academy of Sciences.

[23]  J. H. Wang,et al.  Infrared studies on the mechanism of action of carbonic anhydrase. , 1968, The Journal of biological chemistry.

[24]  P. Henkart,et al.  Catalysis of the hydrolysis of 1-fluoro-2,4-dinitrobenzene by carbonic anhydrase. , 1968, The Journal of biological chemistry.

[25]  J. Sturtevant,et al.  The kinetics of the binding of zinc(II) by apocarbonic anhydrase , 1968 .

[26]  R J Williams,et al.  Metalloenzymes: the entatic nature of their active sites. , 1968, Proceedings of the National Academy of Sciences of the United States of America.

[27]  J. Coleman Mechanism of action of carbonic anhydrase. Subtrate, sulfonamide, and anion binding. , 1967, The Journal of biological chemistry.

[28]  J. Edsall,et al.  Esterase activities of human carbonic anhydrases B and C. , 1967, The Journal of biological chemistry.

[29]  B. Strandberg,et al.  Crystal structure of human erythrocyte carbonic anhydrase C. 3. Molecular structure of the enzyme and of one enzyme-inhibitor complex at 5-5 A resolution. , 1967, Journal of molecular biology.

[30]  J. Coleman Metal Ion Dependent Binding of Sulphonamide to Carbonic Anhydrase , 1967, Nature.

[31]  E. J. Billo,et al.  The Effect of Coordinated Ligands on the Rate of Replacement of Bound Water by Ammonia in Nickel(II) Complexes , 1967 .

[32]  D. Phillips,et al.  THE HEN EGG-WHITE LYSOZYME MOLECULE , 1967 .

[33]  J. Coleman Human carbonic anhydrase. Protein conformation and metal ion binding. , 1965, Biochemistry.

[34]  Y. Pocker,et al.  The catalytic versatility of erythrocyte carbonic anhydrase. II. Kinetic studies of the enzyme-catalyzed hydration of pyridine aldehydes. , 1965, Biochemistry.

[35]  A. Martell Chelating Agents and Metal Chelates. , 1965 .

[36]  Y. Pocker,et al.  PHOTOREGENERATION OF FADED ALKALI METAL SOLUTIONS. THE CATALYTIC VERSATILITY OF CARBONIC ANHYDRASE FROM ERYTHROCYTES. THE ENZYME-CATALYZED HYDRATION OF ACETALDEHYDE. , 1965, Journal of the American Chemical Society.

[37]  J. C. Kernohan THE PH-ACTIVITY CURVE OF BOVINE CARBONIC ANHYDRASE AND ITS RELATIONSHIP TO THE INHIBITION OF THE ENZYME BY ANIONS. , 1965, Biochimica et biophysica acta.

[38]  J. Eriksson,et al.  NMR-STUDIES OF THE SOLUBILISATION OF AROMATIC COMPOUNDS IN CETYLTRIMETHYLAMMONIUM BROMIDE SOLUTION: Division of Physical Chemistry, Royal Institute of Technology, Stockholm 70, Sweden , 1965 .

[39]  H. F. Fisher,et al.  A LIMITING LAW RELATING THE SIZE AND SHAPE OF PROTEIN MOLECULES TO THEIR COMPOSITION. , 1964, Proceedings of the National Academy of Sciences of the United States of America.

[40]  S. Lindskog,et al.  AMINO ACID COMPOSITION OF VARIOUS FORMS OF BOVINE AND HUMAN ERYTHROCYTE CARBONIC ANHYDRASE. , 1964, Biochimica et biophysica acta.

[41]  S. Lindskog Effects of pH and inhibitors on some properties related to metal binding in bovine carbonic anhydrase. , 1963, The Journal of biological chemistry.

[42]  I. Fridovich Inhibition of acetoacetic decarboxylase by anions. The Hofmeister lyotropic series. , 1963, The Journal of biological chemistry.

[43]  J. Hunt Metal ions in aqueous solution , 1963 .

[44]  S. Lindskog,et al.  Metal binding and catalytic activity in bovine carbonic anhydrase. , 1962, The Journal of biological chemistry.

[45]  D. Kern The hydration of carbon dioxide , 1960 .

[46]  E. Smith The Mode of Action of the Metal-Peptidases. , 1949, Proceedings of the National Academy of Sciences of the United States of America.

[47]  H. Krebs Inhibition of carbonic anhydrase by sulphonamides. , 1948, The Biochemical journal.