Molecular organization in bacterial cell membranes III. Components of a “soluble” fraction obtained by n-butanol extraction of Streptomyces albus membranes

Abstract

We have isolated a “soluble” fraction of Streptomyces albus G membranes or membranes previously solubilised by sodium dodecylsulphate, using n-butanol extraction. Polyacrylamide gel electrophoresis in sodium dodecylsulphate of the whole membrane showed a complex protein pattern (about 20–25 bands) with two predominant groups. The “soluble” fraction represented about 25% of the membrane protein and contained part of the major polypeptides. The yield of protein in “soluble” form decreased when membranes were suspended in water and di not significantly change if membranes were reduced with sodium dithionite and then treated with iodoacetamide. A change in relative mobility of some of these polypeptides seemed to occur with membrane delipidation. The proteins of the fraction appear to be glycoproteins as indicated by their simultaneous staining for protein and carbohydrate and the parallel sensitivity to trypsin of both stains. The apparent molecular weights by sodium dodecylsulphate gel electrophoresis of the proteins (glycoproteins) were: 63 000, 40 000 and 17 000. Similar protein patterns were obtained by extraction of the membranes with EDTA and non-ionic detergents. Lipid and nucleotide material were also found in the “soluble” fraction. The “soluble” fraction showed by gel filtration on Sephadex G-200 the existence of different states of aggregation. These states of aggregation revealed the same electrophoretic pattern of proteins, which seemingly corresponded to that of the original fraction (i.e. three protein groups with relative mobilities 0.65, 0.80 and 1.0). Treatment of the samples under different conditions with 1% dodecylsulphate (supplemented or not with 0.5% β-mercaptoethanol) failed to completely dissociate the fraction as shown by Sephadex filtration.