Affiliation:
1. U. S. Army Chemical Corps, Fort Detrick, Frederick, Maryland
Abstract
Landman, Otto
E. (Fort Detrick, Frederick, Md.),
Howard T. Bausum, and Thomas S. Matney
. Temperature-gradient plates for growth of microorganisms. J. Bacteriol.
83:
463–469. 1962.—Different temperature-gradient plates have been devised for the study of microbial growth on solid media through continuous temperature ranges or in liquid media at finely graded temperatures. All plates are made of heavy-gauge aluminum; heat supplied at one end is dissipated along the length of the metal so that a gradient is produced. The shape and range of the gradient depends on the amount of heat supplied, the insulation, the ambient temperature, and other factors. Differences of 0.2 C in temperature sensitivity between bacterial strains can be detected. The plates are simple to construct and operate. The dimensions of the aluminum, the mode of temperature measurement, and the method of heating may all be modified without diminishing the basic utility of the device.
A sharp growth front develops at the maximal temperature of growth of bacteria. In most strains, all bacteria below the front form colonies and all bacteria above the front are killed, except for a few temperature-resistant mutants.
Publisher
American Society for Microbiology
Subject
Molecular Biology,Microbiology
Reference7 articles.
1. BAUSUM H. T. 0. E. LANDMAN AND T. S. MATNEY. 1960. The temperature gradient plate and its applications. Bacteriol. Proc. p. 55.
2. BAUSUM H. T. T. S. MATNEY AND 0. E. LANDMAN. 1961. The interphase between the heat labile and stable types of metabolism in facultative thermophiles. Bacteriol. Proc. p. 93.
3. The bacteriophages of Bacillus megaterium;FRIEDMAN M.;J. Bacteriol.,1953
4. Algal growth in crossed gradients of light intensity and temperature;HALLDAHL P.;Plant. Physiol.,1958
5. Genetic nature of stable L forms of Salmonella paratyphi;LANDMAN E.;J. Bacteriol.,1961
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