Hydraulic permeability of agarose gels

## Abstract Two experimental methods have been developed to characterize the pressure‐driven flow of a liquid through the walls of single hollow‐fiber membranes. In one method, the permeation rate is measured directly by following the air–water interface in a pressurized pipet connected to a hollow

Electron microscopy has been carried out on sections of beaded agarose with a wide range of thicknesses, and the results have been analyzed by means of stereological theory using computer graphics. The results agree with a randomly orientated system in which, for 4% gels, the mean molecular weight p

The dependencies of the gel-forming capacity and of the rheological and osmotic properties of gels on the composition of agarose-gelatin-water system are studied. The composition range investigated covers singlephase and two-phase systems. It is corroborated by electron microscopy. The gel point of

After electrophoresis, DNA can be efficiently recovered by solubilization of agarose gels with NaC104, followed by retention of DNA on glass fiber filters. After removal of the NaCIO, by ethanol, the DNA can be extracted with a low salt buffer.

Reduction of the salt concentration of small volumes (0.1 ml or less) of solutions of macromolecules can be accomplished by placing the solution in a small well in an agarose gel. This technique has been especially useful in preparation of samples for electron microscopy.