A proton magnetic relaxation study of ferrimyoglobin in aqueous ionic solutions

The proton magnetic relaxation time, 2'1, has been measured at 29 MHz in 0.1M KH2P04 and 0.1M NaCl (both pH 6 ) aqueous solutions of human ferrihaemoglobin, the protein concentrations ranging from 0.5 to 5 mM per haem. The linear dependence on protein concentration of the enhancement in relaxation r

The longitudinal proton magnetic relaxation times TI were measured for ferri (met)and carbonmonoxy-bovine haemoglobin and equine myoglobin in 0.1 M KH2P04 aqueous solutions near pH 6 a t 5°C and 35°C from 1.5-to 60-MHx Larmor frequencies. I t is concluded that the correlation time T C for the dipole

The aggregation of micelles is governed by a delicate balance between the reduction of the hydrocarbon-water interface and the coulomb interactions of the polar/ionic head groups with the counterions and the solvent. When polar organic solvents are introduced as cosolvents, the micelle structure is

The proton nuclear magnetic relaxation rate, 1/T1, is reported as a function of d5-glycerol concentration for aqueous manganese(II) ion solutions over a range of magnetic field strengths corresponding to proton Larmor frequencies between 0.01 and 38 MHz. The data are analyzed in terms of the Solomon