10. Purification of Viruses by Cenlrifugation in Gradients of Inert Substances |
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Authors: | A. Poison |
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Abstract: | ABSTRACT By using a reorienting gradient centrifuge rotor cut from a block of Nylon and fitted with eight septae, it was possible to separate the components of the haemolymph of the mollusc Turbo sarmaticus into three fractions in a sucrose gradient held in the bowl of the rotor. The fractions were (108 and 98)S, 44S and 16-22S. The success of the experiment was due to the large differences in the sedimentation coefficients of the components. When the rotor was applied to the natural mixture of the five viruses of the caterpillars of Nudaurelia cytheria only the main component could be isolated in a pure state. The viruses were separated by isopycnic centrifugation in “self formed” caesium chloride gradients, using a Beckman Model E analytical centrifuge in which a separation cell fitted with a centerpiece with two perforated partitions was used. Centrifugation in gradients of inert substances is useful for the separation of components in a mixture1. There are two principles involved in this type of separation. One, termed reorienting gradient centrifugation (reograd) relies on the differences in masses or, better still on the sedimentation coefficients of the different components in the mixture and the second, termed isopycnic centrifugation2, on the densities or specific gravities of the different entities. |
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