Physical Principles and Techniques of Protein Chemistry, Part 3Sydney J. Leach |
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Page 81
... equilibrium state is reached , nonetheless , because we know from experience that an undisturbed system cannot remain out of equilibrium indefinitely . If it could do so , we would be confronted with perpetual motion , which , on a ...
... equilibrium state is reached , nonetheless , because we know from experience that an undisturbed system cannot remain out of equilibrium indefinitely . If it could do so , we would be confronted with perpetual motion , which , on a ...
Page 96
... equilibrium be at a different pH , a commonly ob- served phenomenon with proteins in osmotic equilibrium . At this point we must record the fact that the actual difference in molality of a particular ion on the two sides does not ...
... equilibrium be at a different pH , a commonly ob- served phenomenon with proteins in osmotic equilibrium . At this point we must record the fact that the actual difference in molality of a particular ion on the two sides does not ...
Page 296
... equilibrium water content to 8 msec at saturation equilibrium water content , with the rate of change of T2 increasing rapidly as saturation is approached ( see Fig . 23a ) . In general terms , this behavior indicates a lowering of the ...
... equilibrium water content to 8 msec at saturation equilibrium water content , with the rate of change of T2 increasing rapidly as saturation is approached ( see Fig . 23a ) . In general terms , this behavior indicates a lowering of the ...
Contents
25 | 4 |
E The Isopotential Specific Volume | 10 |
Direct Volume Change | 22 |
Copyright | |
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a-helical a-helix absorption band acid angle B-structure Beychok Biochem Biochemistry Biol Blout c₂ calculated CD band CD spectrum Chem chromophore circular dichroism coefficient Cohn coil complex concentration conformation contribution Cotton effects creatine kinase cross-section denatured determined dipole Doty electron density ellipticity enzyme equation equilibrium exciton experimental factor Fasman function helical content helix intensity interaction kinase Kratky lysozyme magnetic measurements method Moffitt molecular weight molecule myoglobin negative negative band obtained optical activity ORD curve parameters partial specific volume particles peptide perturbation Phys Pilz plot polarized poly-L-proline polymer polypeptides positive procedure protein protein solution pulse Pysh radius of gyration random coil region residues rotational strength rotatory sample Schellman Section shape small-angle solvent spectra sphere studies subunits T₁ temperature theory Tinoco tion transition transition dipole moment tyrosine vector wavefunctions wavelength Woody X-ray zero