Physical Principles and Techniques of Protein Chemistry, Part 3Sydney J. Leach |
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Page 105
... macromolecules , such as viruses . This kind of study also provides a clear measure of the mixed interaction if the macromolecule concentrations are varied independently . More prac- tically , the protein of interest may contain small ...
... macromolecules , such as viruses . This kind of study also provides a clear measure of the mixed interaction if the macromolecule concentrations are varied independently . More prac- tically , the protein of interest may contain small ...
Page 155
... macromolecule can be calculated directly from the axial ratio and the radius of gyration . It is of course obvious that not all macromolecules and , more espe- cially , all proteins can be sufficiently well described by a simple ...
... macromolecule can be calculated directly from the axial ratio and the radius of gyration . It is of course obvious that not all macromolecules and , more espe- cially , all proteins can be sufficiently well described by a simple ...
Page 166
... macromolecule and the solvent and is responsible for the intensity of small - angle scattering . If there is no contrast in electron density between the macromolecule and solvent then no small- angle scattering occurs . We may note that ...
... macromolecule and the solvent and is responsible for the intensity of small - angle scattering . If there is no contrast in electron density between the macromolecule and solvent then no small- angle scattering occurs . We may note that ...
Contents
F Density and Composition | 16 |
Direct Volume Change | 22 |
Density | 32 |
Copyright | |
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a-helix absorption acid Amer angle B-structure band Biochem Biochemistry Biol c₂ calculated CD spectra Chem chemical potential chromophore coefficient conformation constant Cotton effects cross-section denaturation determined dialyzate difference diffusible components dilute Donnan electron density enzyme equation equilibrated equilibrium exciton experimental function gm/ml grams helical helix hemocyanin hemoglobin intensity interaction Kratky Kupke Linderstrøm-Lang macromolecules magnetic measurements membrane method mixture molal molecular weight molecule monomer myoglobin negative nondiffusible components nonideality number of moles obtained optical activity osmometers osmotic pressure parameter partial specific volume particles peptide Phys Pilz plot polymer polypeptides positive potential procedure protein component protein concentration protein solution radius of gyration random coil residues rotational strength salt sample Scatchard Schellman Section shape small-angle scattering solvent solvent medium spectrum sphere structure subunits temperature Tinoco tion transition v₂ volume change wavelength zero