Physical Principles and Techniques of Protein Chemistry, Part 3 |
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Page 207
TABLE VI CALCULATED Radii OF GYRATION ( R ) FOR VARIOUS
TETRAMERIC MODELS Model R ( Å ) Sphere Esto > 27 . 7 81 . 0 47 . 1 48 . 7 35
. 4 40 . 5 34 . 4 + 0 . 4 Experimental value From Witz et al . ( 1964 ) , with
permission . Witz et ...
TABLE VI CALCULATED Radii OF GYRATION ( R ) FOR VARIOUS
TETRAMERIC MODELS Model R ( Å ) Sphere Esto > 27 . 7 81 . 0 47 . 1 48 . 7 35
. 4 40 . 5 34 . 4 + 0 . 4 Experimental value From Witz et al . ( 1964 ) , with
permission . Witz et ...
Page 212
The concentrations c of the solutions are given in Table VIII . The values of the
radii of gyration and of the mass per unit length ( M / 1 Å ) obtained are also
summarized in the table and plotted versus the concentration in Fig . 40 ( Sund et
al .
The concentrations c of the solutions are given in Table VIII . The values of the
radii of gyration and of the mass per unit length ( M / 1 Å ) obtained are also
summarized in the table and plotted versus the concentration in Fig . 40 ( Sund et
al .
Page 342
The method of estimating the initial values of parameter 1 through 17 is shown for
a model consisting of five bands plus a linear baseline . observed data ( Table X )
. In this example , the digital standard shape function is that illustrated in Fig .
The method of estimating the initial values of parameter 1 through 17 is shown for
a model consisting of five bands plus a linear baseline . observed data ( Table X )
. In this example , the digital standard shape function is that illustrated in Fig .
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addition amount angle appears applied approximately band beam becomes calculated Chem compared complex component concentration conformation constant containing contribution corresponding creatine cross-section density dependence described determined diffusible dilute discussed effect electron electron density enzyme equation equilibrium et al example experimental experiments factor field function given gives gyration increase indicated intensity interaction Kratky length magnetic mass means measurements membrane method mole molecular weight molecule negative observed obtained optical activity parameters particles plot positive possible procedure protein solution pulse radius of gyration range ratio reference region relative residues respectively rotational strength sample scattering curve shape shown shows side similar small-angle solvent specific specific volume spectra spectrum sphere structure studies subunits Table temperature theoretical theory tion transition usually various varying volume wavelength X-ray zero
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Bibliographic information
| Title | Physical Principles and Techniques of Protein Chemistry, Part 3 Molecular biology, ISSN 0544-7429 Parts 1-3 of Molecular biology; an international series of monographs and textbooks Physical Principles and Techniques of Protein Chemistry, Sydney J. Leach |
| Editor | Sydney J. Leach |
| Publisher | Academic Press, 1969 |
| Original from | the University of Michigan |
| Digitized | 25 Jul 2008 |
| ISBN | 0124401031, 9780124401037 |
| Length | 1642 pages |
| Export Citation | BiBTeX EndNote RefMan |