Growth conditions and temperature-dependent substrate specificity of two extremely thermophilic bacteria.

TLDR: Experiments with C14-labelled glucose have shown that the inability to utilize glucose at 80° C is not due to an inactivation of the initial steps of the glycolytic pathway, thus blocking the utilization of glucose at this temperature.

Abstract: Conditions for cultivating two extremely thermophilic bacteria, isolated from the hot springs of Yellowstone National Park, are described. One of these strains, Thermus aquaticus, can be grown on either succinate or pyruvate as the best substrates at 78° C. Acetate, glucose, and sucrose can also be utilized at this temperature. The temperature optimum was found to be 70° C, but the bacterium can be adapted to grow on succinate or pyruvate at 80° C. The other strain, YT-G has its growth optimum at 80° C and the maximum temperature was found to be 84° C. At this temperature pyruvate is the only substrate which gives good results, while glucose cannot be used as a carbon source. At 70° C, however, the yields obtained with glucose as a substrate are better than those with pyruvate at 80° C. Experiments with C14-labelled glucose have shown that the inability to utilize glucose at 80° C is not due to an inactivation of the initial steps of the glycolytic pathway. Phosphorylated sugars and a compound corresponding to α-glycerophosphate were found to be formed, the latter being accumulated as a side product of normal glycolysis. The enzymes leading to this product, and those which are involved in the conversion of pyruvate were found to be functioning at 80° C, while intermediate enzymes of the glycolytic pathway are assumed to be less heat resistant, thus blocking the utilization of glucose at this temperature. The ability of strain YT-G to grow on glucose is, however, promptly resumed if the temperature is lowered. Lysozyme treatment was found to lead to a complete conversion of T. aquaticus cells to spheroplast while cells of strain YT-G are only slightly altered by this procedure.