1887

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Volume 31, Issue 2

On the Structural Transformations and Lysis of in Hypotonic and Isotonic Solution s Free

Abstract

SUMMARY

When the NaCl concentration of a suspension of is gradually lowered by adding water, the rod-shaped organisms are converted to spheres which lyse. The organisms do not change in size when transformed from rods to spheres. Chemicals which do not possess a strong net charge in aqueous solutions do not protect the structure of the organism when they replace NaCl in iso-osmolar concentions. The rod shape of the organisms is only maintained by very high concentrations of ions which interact weakly with common proteins; lithium and ammonium ions are exceptions to this rule. Ions which display strong interactions with common proteins, and chemicals which are believed to break secondary bonds between protein molecules, effect a transformation of rods to spheres, and frequently a lysis of the spheres, when brought in contact with organisms suspended in strong NaCl solution. The changes in structure in hypotonic and isotonic solutions are not affected by metabolic inhibitors. Isolated cell-wall fragments disintegrate into smaller units when exposed to conditions under which whole organisms lyse. It is concluded that the structural transformations and lysis of in hypotonic solutions are not caused by the action of enzymes and that osmotic phenomena play no, or only a minor, role. The observations support the contention that the globular lipoprotein particles, which constitute the bulk of the material of the cell wall of these bacteria, are bound together mainly by electrostatic forces and secondary bonds. When the cells are exposed to hypotonic solutions, or to ions which bind strongly to proteins, or to chemicals which are believed to break secondary bonds between protein molecules, the linkages binding the lipoprotein particles together are weakened so that the wall structure disintegrates. Only in the presence of high concentrations of sodium and chloride ions, or other ions which bind loosely to proteins, is it possible for the proteinaceous particles of the cell wall to associate in an orderly array.

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© Society for General Microbiology, 1962
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1963-05-01
2024-05-03
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References

  1. Abram D., Gibbons N. E. 1960; Turbidity of suspensions and morphology of red halophilic bacteria as influenced by sodium chloride concentration. Canad. J. Microbiol 6:535
     [Google Scholar]
  2. Abram D., Gibbons N. E. 1961; The effect of chlorides of monovalent cations, urea, detergents, and heat on morphology and the turbidity of suspensions of red halophilic bacteria. Canad. J. Microbiol 7:741
     [Google Scholar]
  3. Baxter R. M. 1959; An interpretation of the effects of salts on the lactic dehydrogenase o. Halobacterium salinarium. Canad. J. Microbiol 5:47
     [Google Scholar]
  4. Bergey’s Manual of Determinative Bacteriology 1957, 7th edn. Ed. by Breed R. S., Murray E. G. D., Smith N. R. Baltimore: Williams and Wilkins Co;
  5. Brown A. D. 1961; The peripheral structures of Gram-negative bacteria. I. Cell wall protein and the action of a lytic enzyme system of a marine pseudomonad. Biochim. biophys. acta 48:352
     [Google Scholar]
  6. Browne W. W. 1922; The staining of halophilic bacteria. Abstr. Bact 6:25
     [Google Scholar]
  7. Christian J. H. B. 1956; The physiological basis of salt tolerance in halophilic bacteria. Doctor’s thesis, University of Cambridge
  8. Christian J. H. B., Ingram M. 1959; The freezing points of bacterial cells in relation to halophilism. J. gen. Microbiol 20:27
     [Google Scholar]
  9. Dalitz V. C. 1953; Abdruckverfahren zur Beobachtung von Holz in Übermikroskop. Z. wiss. Mikr 61:292
     [Google Scholar]
  10. Dussault H. P. 1955; An improved technique for staining red halophilic bacteria. J. Bact 70:484
     [Google Scholar]
  11. Houwink A. L. 1956; Flagella, gas vacuoles and cell-wall structure i. Halobacterium halobium; an electron microscope study. J. gen. Microbiol 15:146
     [Google Scholar]
  12. Ingram M. 1957; Microorganisms resisting high concentrations of sugars or salts. I. Microbial Ecology, Symp. Soc. gen. Microbiol. 7:90
     [Google Scholar]
  13. Klebahn H. 1919; Die Schädlinge des Klippfisches. Mitt. Inst. allg. Bot. Hamb 4:11
     [Google Scholar]
  14. Mager J. 1959; Spermine as a protective agent against osmotic lysis. Nature, Lond 183:1827
     [Google Scholar]
  15. Organic Syntheses 1947 Collective vol. I , 2nd edn..302 Ed. Blatt A. H. London: Chapman and Hall, Ltd;
  16. Petter H. F. M. 1932 Over roode en andere bacteriën van gezouten visch Doctor’s thesis, University of Utrecht
  17. Roelofsen P. A., Dalitz V. C., Winjman C. F. 1953; Constitution, submicroscopic structure and degree of crystallinity of the cell wall o. Halicystis osterhoutii. Biochim. biophys. acta 11:344
     [Google Scholar]
  18. Smithies W. R., Gibbons N. E., Bayley S. T. 1955; The chemical composition of the cell and cell wall of some halophilic bacteria. Canad. J. Microbiol 1:605
     [Google Scholar]
  19. Taylor J. F. 1953 The isolation of proteins. I. The Proteins 1:1 Ed. by Neurath H., Bailey K. New York: Academic Press;
     [Google Scholar]
  20. Weidel W., Frank H., Martin H. H. 1960; The rigid layer of the cell wall o. Escherichia coli strain b. J. gen. Microbiol 22:158
     [Google Scholar]
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On the Structural Transformations and Lysis of Halobacterium salinarium in Hypotonic and Isotonic Solution s
Microbiology 31, 267 (1963); https://doi.org/10.1099/00221287-31-2-267
/content/journal/micro/10.1099/00221287-31-2-267
/content/journal/micro/10.1099/00221287-31-2-267
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