Localization of the Tween 20-soluble membrane proteins of Acholeplasma laidlawii by crossed immunoelectrophoresis |
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Authors: | K E Johansson S Hjertén |
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Affiliation: | The Membrane Group, Institute of Biochemistry University of Uppsala, Box 531, S-751 21 Uppsala, Sweden |
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Abstract: | The Tween 20-soluble membrane proteins from Acholeplasma laidlawii have previously been fractionated by preparative agarose-suspension electrophoresis. The fractions obtained have now been characterized by crossed immuno-electrophoresis in the presence of Tween 20 and with antiserum containing antibodies directed against the membrane proteins. This antiserum was also utilized in order to get some information about the location of proteins, i.e. whether they are located on the inside or the outside of the membrane. The method used is based upon crossed immunoelectrophoresis of the Tween 20-soluble membrane proteins as antigens and uses an antiserum that has been depleted of the antibodies that are directed against proteins with antigenic determinants exposed either on the outside of the membrane or on both sides. These two types of antisera (called I and II) can be produced by adding intact cells or washed, lysed cells, respectively, to the original antiserum and then removing the cells with the adsorbed antibodies by centrifugation. If there exists in the intact membrane a protein which has antigenic determinants, e.g. only on the inside of the membrane, a precipitation line corresponding to this protein will appear in crossed immunoelectrophoresis experiments with the original antiserum and antiserum type I, but not with antiserum type II. Using this method we found that probably only one of the Tween 20-soluble proteins is exposed on the outside and three on the inside of the A. laidlawii membrane. These findings, combined with results obtained by digesting and labelling erythrocytes and by immunological investigations of protoplasts of Micrococcus lysodeikticus, may reflect a possible, general feature of the structure of the plasma membrane, namely that most of its proteins are associated with the inner surface of the membrane. There is also some evidence that no protein is buried within the lipid layer, which also has been found for erythrocyte ghosts by a labelling technique, and therefore may be another characteristic architectural feature of plasma membranes. |
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