Difference between revisions of "Rules of Thumb (module)"
m (Added modules category.) |
(→Transport experiments: Added initial description.) |
||
| Line 2: | Line 2: | ||
== Transport experiments == | == Transport experiments == | ||
| + | |||
| + | Given a shape (sphere or random coil), degree of hydration (0.0 or 0.3), a molecular weight in K daltons, or both a sedimentation coefficient in Svedbergs and a diffusion coefficient in Ficks, this module can estimate the molecule's Stoke's radius. For convenience, when s and D are provided the molecular weight is also estimated. When only M is provided, the sedimentation coefficient is also estimated. | ||
== Equilibrium experiments == | == Equilibrium experiments == | ||
Revision as of 22:06, 8 February 2013
The Rules of Thumb module is based on Walter Stafford's rules of thumb for analytical ultracentrifugation. In transport sedimentation experiments this module provides estimations of the Stoke's radius from mass, the sedimentation coefficient, and the diffusion coefficient. In equilibrium experiments it provides estimations of the time to equilibrium, molecular weight, and rotor speed from various combinations of speed, the sedimentation coefficient, sigma, Stoke's radius, and molecular weight.
Transport experiments
Given a shape (sphere or random coil), degree of hydration (0.0 or 0.3), a molecular weight in K daltons, or both a sedimentation coefficient in Svedbergs and a diffusion coefficient in Ficks, this module can estimate the molecule's Stoke's radius. For convenience, when s and D are provided the molecular weight is also estimated. When only M is provided, the sedimentation coefficient is also estimated.
Equilibrium experiments
Important notes
This module provides estimations only. All calculations assume a density of 1.00 g/cc and a v-bar of 0.725 cc/g.
External links
- Walter Stafford's Rules of Thumb: http://www.bbri.org/faculty/stafford/Thumb-8.html
