By et al D. Scott (Editor)
Analytical Ultracentrifugation has turn into an more and more vital procedure for tracking the scale and form of organic macromolecules. "Analytical Ultracentrifugation: ideas and strategies" includes contributions from specialists within the box, bringing jointly the multitude of advancements that experience taken position in instrumentation and research over the last decade right into a unmarried quantity. This booklet covers the most recent equipment in research besides an intensive creation for the amateur person. research tools in either sedimentation pace and sedimentation equilibrium are mentioned at size. Protein, Protein/DNA, membrane proteins and polymer structures also are explored, in addition to software program advancements and non-ideality.
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Additional resources for Analytical Ultracentrifugation Techniques and Methods
CHAPTER 2 Diffusion-Deconvoluted Sedimentation Coefficient Distributions for the Analysis of Interacting and Non-Interacting Protein Mixtures PETER SCHUCK Abstract By modeling the evolution of concentration profiles measured in a sedimentation velocity experiment with a distribution of Lamm equation solutions it is possible to calculate diffusion-free sedimentation coefficient distributions, c(s). For non-interacting or slowly interacting mixtures of sedimenting macromolecules, these report on the number and s value of the species present in solution.
J. J. Correia and D. A. Yphantis, in Analytical Ultracentrifugation in Biochemistry and Polymer Science, S. E. Harding, A. J. Rowe and J. C. , 1992, 231–252. 24 Chapter 1 19. 20. 21. 22. J. Lebowitz, M. S. Lewis and P. , 2002, 11, 2067–2079. P. Schuck, Anal. , 2003, 320, 104–124. J. L. Cole, Method. , 2004, 384, 212–232. J. Vistica, J. Dam, A. Balbo, E. Yikilmaz, R. A. Mariuzza, T. A. Rouault and P. Schuck, Anal. , 2004, 326, 234–256. A. Balbo and P. Schuck, in Protein–Protein Interactions, E. Golemis and P.
Carrasco, Biophys. , 2000, 78, 719–730. O. Lamm, Ark. Mat. Astr. , 1929, 21B(2), 1–4. -M. Claverie, H. Dreux and R. Cohen, Biopolymers, 1975, 14, 1685–1700. L. A. Holladay, Biophys. , 1979, 10, 187–190. J. S. Philo, Biophys. , 1997, 72, 435–444. P. Schuck, Biophys. , 1998, 75, 1503–1512. P. Schuck, C. E. MacPhee and G. J. Howlett, Biophys. , 1998, 74, 466–474. J. Behlke and O. Ristau, Biophys. , 2002, 95, 59–68. P. Schuck, Biophys. , 2004, 108, 187–200. P. Schuck, Biophys. , 2004, 187, 201–214.