Influence of globin structure on the state of the heme. II. Allosteric transitions in methemoglobinM. F. Perutz, Gordon C. K. Roberts, Alan R. Fersht et al.|Biochemistry|1974Cited by 287
Calculation of dipolar nuclear magnetic relaxation times in molecules with multiple internal rotations. II. Theoretical results for anisotropic over-all motion of the molecule, and comparison with 13C relaxation times in <i>n</i> -alkanes and <i>n</i> -alkyl bromidesY.K. Levine, Gordon C. K. Roberts, A. G. Lee et al.|The Journal of Chemical Physics|1974Cited by 138
<sup>13</sup>C Nuclear magnetic relaxation times and models for chain motion in lecithin vesiclesY.K. Levine, James C. Metcalfe, P. Partington et al.|FEBS Letters|1972Cited by 82
A determination of the mobility gradient in lipid bilayers by 13C nuclear magnetic resonanceArthur Lee, Gordon C. K. Roberts, N.J.M. Birdsall et al.|Proceedings of the Royal Society of London. Series B, Biological sciences|1976Cited by 54
ChemInform Abstract: CALCULATION OF DIPOLAR NUCLEAR MAGNETIC RELAXATION TIMES IN MOLECULES WITH MULTIPLE INTERNAL ROTATIONS PART 2, THEORETICAL RESULTS FOR ANISOTROPIC OVER‐ALL MOTION OF THE MOLECULE, AND COMPARISON WITH (13)C RELAXATION TIMES IN N‐ALKANES AND N‐ALKYL BROMIDESY.K. Levine, Gordon C. K. Roberts, P. Partington et al.|Chemischer Informationsdienst|1974Cited by 0