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Estimation of the Size of Antigens by Gel Diffusion Methods

Nature volume 183pages 1590–1592 (1959)Cite this article

Abstract

ANALYSIS of the pattern of precipitation lines formed when antigens and antibodies diffuse towards one another in an agar gel is established as a valuable qualitative technique in immunology. In the systems commonly used, diffusion occurs either in a tube1 or in a flat sheet of gel2. Several theoretical treatments of the tube-diffusion system have been presented3. In the latest, and most satisfactory, by Augustin et al. 4, a formula is given for calculation of the approximate diffusion coefficients of antigens from accurate measurements of the position of the precipitin lines at various intervals of time. Great accuracy is not claimed for the method, however, and it is difficult to apply when several antigens are present. Korngold and van Leeuwen5 have given a theoretical treatment for systems where diffusion occurs in a flat sheet, which enabled them to deduce that the precipitation line would be convex towards the well containing the reacting material with the greater diffusion constant. Although this conclusion is valid, the equations derived are not suitable for calculation of accurate diffusion coefficients because they depend on the assumption, which we have found to be invalid, that free diffusion continues after precipitation has begun.

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Authors and Affiliations

  1. National Institute for Medical Research, Mill Hill, London, N.W.7.

    A. C. ALLISON & J. H. HUMPHREY

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  1. A. C. ALLISON
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  2. J. H. HUMPHREY
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ALLISON, A., HUMPHREY, J. Estimation of the Size of Antigens by Gel Diffusion Methods. Nature 183, 1590–1592 (1959). https://doi.org/10.1038/1831590a0

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