Flow birefringence
In biochemistry, flow birefringence is a hydrodynamic technique for measuring the rotational diffusion constants (or, equivalently, the rotational drag coefficients). The birefringence of a solution sandwiched between two concentric cylinders is measured as a function of the difference in rotational speed between the inner and outer cylinders. The flow tends to orient an ellipsoidal particle (typically, a protein, virus, etc.) in one direction, whereas rotational diffusion (tumbling) causes the molecule to become disoriented. The equilibrium between these two processes as a function of the flow provides a measure of the axial ratio of the ellipsoidal particle.
See also
- Perrin friction factors
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- Cryo-electron microscopy
- X-ray crystallography
- NMR
- Electron crystallography
- EPR
- Fiber diffraction
- Mass spectrometry
- SAXS
- NMR
- Circular dichroism
- Dual-polarization interferometry
- Absorbance
- Fluorescence
- Fluorescence anisotropy
- Fluorescence anisotropy
- Flow birefringence
- Dielectric relaxation
- NMR
- Protein structure prediction
- Molecular docking
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