论文信息 - Measurement of the water exchange rate of bound water in the manganese(II)-adenosine triphosphate complex by oxygen-17 nuclear magnetic resonance. - 字舞流文

Measurement of the water exchange rate of bound water in the manganese(II)-adenosine triphosphate complex by oxygen-17 nuclear magnetic resonance.

J. Hunt | H. Dodgen | M. S. Zetter

[1] J. Hunt,et al. Water-exchange studies on manganese(II) nitrilotriacetate and ethylenediaminetetraacetate complexes by oxygen-17 nuclear magnetic resonance , 1972 .

[2] T. J. Swift,et al. The role of coordinated water in metal ion--adenine ring binding in complexes of adenosine triphosphate. , 1972, Biochemistry.

[3] J. Hunt. Water-exchange kinetics in labile aquo and substituted aquo transition metal ions by means of 17o nmr studies , 1971 .

[4] G. H. Reed,et al. Electron Paramagnetic Relaxation and EPR Line Shapes of Manganous Ion Complexes in Aqueous Solutions. Frequency and Ligand Dependence , 1971 .

[5] J. L. Dye,et al. A general purpose curve fitting program for class and research use , 1971 .

[6] T. J. Swift,et al. A proton magnetic resonance study of metal ion-adenine ring interactions in metal ion complexes with adenosine triphosphate. , 1971, Biochemistry.

[7] J. Hunt,et al. Water exchange between solvent and aquomanganese(II) and aquophenanthrolinemanganese(II) complexes , 1971 .

[8] G. Rechnitz,et al. Potassium-Adenosine Triphosphate Complex: Formation Constant Measured with Ion-Selective Electrodes , 1970, Science.

[9] R. Connick,et al. Rate of water exchange from hydrated magnesium ion , 1970 .

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

[11] J. Hunt,et al. Water exchange between solvent and aquoamminenickel(II) complexes , 1970 .

[12] J. Hunt,et al. Water exchange between solvent and aquoethylenediaminenickel(II) complexes , 1969 .

[13] K. Kustin,et al. Metal ion binding to adenosine triphosphate. 3. A kinetic analysis. , 1968, Journal of the American Chemical Society.

[14] Khan Mm,et al. Thermodynamic quantities associated with the interaction of adenosine triphosphate with metal ions. , 1966 .

[15] D. Hague,et al. Role of metals in enzymatic reactions. Part 2.—Kinetics of complex formation in model systems involving manganese(II) and 8-hydroxyquinoline , 1966 .

[16] A. D. McLachlan,et al. Line widths of electron resonance spectra in solution , 1964, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.

[17] D. D. Perrin,et al. THE STABILITY CONSTANTS OF METAL-ADENINE NUCLEOTIDE COMPLEXES. , 1964, Biochemistry.

[18] R. Rutman,et al. POTENTIOMETRIC STUDIES OF THE SECONDARY PHOSPHATE IONIZATIONS OF AMP, ADP, AND ATP, AND CALCULATIONS OF THERMODYNAMIC DATA FOR THE HYDROLYSIS REACTIONS. , 1963, Biochemistry.

[19] T. J. Swift,et al. NMR‐Relaxation Mechanisms of O17 in Aqueous Solutions of Paramagnetic Cations and the Lifetime of Water Molecules in the First Coordination Sphere , 1962 .

[20] R. M. Izatt,et al. THERMODYNAMICS OF PROTON DISSOCIATION IN DILUTE AQUEOUS SOLUTION. II. HEATS OF PROTON DISSOCIATION FROM RIBONUCLEOTIDES AND RELATED COMPOUNDS DETERMINED BY A THERMOMETRIC TITRATION PROCEDURE1 , 1962 .