Difference between revisions of "Buffer and Solute Solution Parameters"

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(Created page with "vbar ρ and η are needed for further interpretation of s* and σ: s* and σ are directly accessible from sedimentation data. However, more often than not, it is the anhydrous mo...")
 
 
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vbar ρ and η are needed for further interpretation of s* and σ: s* and σ are directly accessible from sedimentation data. However, more often than not, it is the anhydrous molecular weight Mr and the frictional coefficient f that are of interest to the experimenter since these are required to learn about the size and shape of a molecule. Rearrangement of equation 4 yields:
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[[Category:Sednterp]][[Category:Theory of Computer Aided Interpretation of Sedimentation Data]]
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vbar ρ and η are needed for further interpretation of s* and σ: s* and σ are directly accessible from sedimentation data. However, more often than not, it is the anhydrous molecular weight Mr and the frictional coefficient f that are of interest to the experimenter since these are required to learn about the size and shape of a molecule. Rearrangement of [[equation 4]] yields:
 
equation 5.
 
equation 5.
  
 
[[File:Equation5.GIF]]
 
[[File:Equation5.GIF]]
  
which shows that calculation of Mr from will require and T. Similarly, rearrangement of equation 3 shows that and are required to determine f from  and s. Further interpretation of f requires that the solvent viscosity be taken into account and that estimates of f be made for anhydrous spheres of identical molecular weight and density. These calculations permit, through still more calculations, the estimation of the limits on a protein's hydration and asymmetry. While none of the calculations is difficult, Sednterp assembles all of them into one program to facilitate data interpretation. This not only eliminates the tedium associated with routine analysis, it also provides a consistent and reliable means of evaluating hydrodynamic observations.
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which shows that calculation of Mr from σ will require vbar, ρ, ω^2 and T. Similarly, rearrangement of [[equation 3]] shows that vbar and ρ are required to determine f from  and s. Further interpretation of f requires that the solvent viscosity η be taken into account and that estimates of f be made for anhydrous spheres of identical molecular weight and density. These calculations permit, through still more calculations, the estimation of the limits on a protein's hydration and asymmetry. While none of the calculations is difficult, Sednterp assembles all of them into one program to facilitate data interpretation. This not only eliminates the tedium associated with routine analysis, it also provides a consistent and reliable means of evaluating hydrodynamic observations.

Latest revision as of 16:31, 23 December 2011

vbar ρ and η are needed for further interpretation of s* and σ: s* and σ are directly accessible from sedimentation data. However, more often than not, it is the anhydrous molecular weight Mr and the frictional coefficient f that are of interest to the experimenter since these are required to learn about the size and shape of a molecule. Rearrangement of equation 4 yields: equation 5.

Equation5.GIF

which shows that calculation of Mr from σ will require vbar, ρ, ω^2 and T. Similarly, rearrangement of equation 3 shows that vbar and ρ are required to determine f from and s. Further interpretation of f requires that the solvent viscosity η be taken into account and that estimates of f be made for anhydrous spheres of identical molecular weight and density. These calculations permit, through still more calculations, the estimation of the limits on a protein's hydration and asymmetry. While none of the calculations is difficult, Sednterp assembles all of them into one program to facilitate data interpretation. This not only eliminates the tedium associated with routine analysis, it also provides a consistent and reliable means of evaluating hydrodynamic observations.