ISSN:
1432-072X
Keywords:
Chromatium vinosum
;
Membrane System
;
Separation
;
Protein Pattern
;
Spheroplasts
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
Notes:
Abstract A fractionation of Chromatium vinosum into an outer layer (cell wall) and three intracellular membrane fractions by isopycnic sucrose density centrifugation of a total membrane fraction obtained by lysis of lysozyme-EDTA spheroplasts is decribed. The three intracellular fractions (I, II, and III) have apparent densities of 1.11, 1.14, and 1.16, respectively, and contain the bulk of the photosynthetic pigments. Fraction II is enriched in bacteriochlorophyll and contains about 49% of the total membrane protein and 60% of the membrane bacteriochlorophyll. The outer membrane fraction (IV, cell wall) has a density of 1.23 and contains 5% of the membrane protein and 0.8% of the bacteriochlorophyll. Fraction I is enriched in lipids and phosphorus and has only a trace of diaminopimelate (DAP). Fractions II and III both contain a significant content of DAP. Fraction IV has no DAP, but has a fatty acid composition similar to that of the envelope fraction. Electrophoresis of the fractions on sodium dodecylsulfate-containing gels yielded from 8–13 bands of protein. Fractions I, II, and III contained the same series of unique proteins, while fraction IV contained another group of unique proteins. In fraction IV the bulk of the proteins traveled in one band with a molecular weight of 41,500. Examination of the fractions and whole spheroplasts in the electron microscope showed that fractions I, II and III were composed of large membrane structures in the form of membrane reticulum with bud-like appendages, and elongated flattened tubes. Fraction IV was composed of large ovoid structures which were seen to lie on the outer surface of the whole spheroplasts. These results suggest that the normal in vivo state of the intracellular membranes is that of an interconnected series of tubules and vesicles extending throughout the cell cytoplasm.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF00455937
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