Re-Examination of Louis Pasteur’s S-Shaped Flask Experiment
Authors: Ming-Hua Fu
Abstract:
No negative control nor control to prevent microbes from escaping was set when the S-shaped flask experiments were performed by Pasteur. Microscope was not used to observe the media in the flasks. Louis Pasteur’s S-shaped flask experiment was re-examined by using U-shaped flasks, modified S-shaped flasks and microscope. A mixture of microbes was isolated from the room air, from which one rod-shaped Bacillus species with proposed name Bacillus gaso-mobilis sp nov and one grape-shaped Staphylococcus species with proposed name of Staphylococcus gaso-mobilis sp nov were identified. Their penicillin and ampicillin resistant strains containing plasmids were isolated. These bacteria could change color, produce odor and automatically move in the air. They did not form colonies on solid media. They had a high suspension capacity in liquid media. Their light absorbance peaked at the wave length of 320 nm. It was concluded that there were flaws with Louis Pasteur’s S-shaped flask experiments.
Keywords: Bacteria, gaso-mobile, re-examine, S-shaped flasks.
Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1087706
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[1] J. B. Conant, Pasteur's and tyndall's study of spontaneous generation: Cambridge: Harvard University Press, 1953.
[2] J. Lisle, "God and natural law.," Answers Magazine. Answers In Genesis., 2006.
[3] G. Rapids, The defender’s study bible. Michigan: Word Publishing, 1995.
[4] G. A. Wistreich and M. D. Lechtman, Microbiology, fifth ed: MacMilian Publishing Company, New York. Collier Macmillan Publishers, London, 1988.
[5] P. G. Engelkirk and J. Duben-Engelkirk, Burton's microbiology for the health sciences 9th ed. ed, 2010.
[6] N. J. Rowan, "Defining established and emerging microbial risks in the aquatic environment: Current knowledge, implications, and outlooks," Int J Microbiol, vol. 2011, pp. 462832, 2011.
[7] J. Wu, Z. Yaqoob, X. Heng, X. Cui, and C. Yang, "Harmonically matched grating-based full-field quantitative high-resolution phase microscope for observing dynamics of transparent biological samples," Opt Express, vol. 15, pp. 18141-55, 2007.
[8] J. Sambrook, E. F. Fristsch, and T. Maniatis, Molecular cloning, a laboratory manual, Second Edition ed: Cold Spring Harbor Laboratory Press, 1989.
[9] M. A. Frederick, Current protocols in molecular biology, vol. Volume 1: John Wiley and Sons, Inc., 1995.
[10] C. R. Harwood and S. M. Cutting, Molecular biological methods for bacillus. New York, Brisbane, Toronto, Singapore: John Wiley and Sons Chichecfer, 1990.
[11] J. Tyndall, Essays on the floating matter in the air in relation to putrefaction and infection. London: Longmans Green, 1881.
[12] A. Fick, "Ann. Physik,," Leipzig, vol. 170, pp. 59, 1855.
[13] C. L. Berthalot, Eassai de statique chimique. Paris, France, 1803.
[14] G. L. Flynn, S. H. Yalkowsky, and T. J. Roseman, "Mass transport phenomena and models: Theoretical concepts," J Pharm Sci, vol. 63, pp. 479-510, 1974.
[15] E. S. James, "Reexamining several episodes reveals the complexity and human richness of science in the making," ASM News vol. 64(4), pp. 193-198, 1998.