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J Bacteriol. 1971 April; 106(1): 197-203
Copyright © 1971 American Society for Microbiology. All Rights Reserved.

Survival and Macromolecular Synthesis During Incubation of Escherichia coli in Limiting Thymine¹

^a Department of Life Sciences, University of California, Riverside, California 92502

ABSTRACT

Survival and the synthesis of deoxyribonucleic acid (DNA), ribonucleic acid (RNA), and protein were measured during incubation of a thymine auxotroph of Escherichia coli in a series of media containing thymine concentrations below the optimal level of 2 µg/ml. The rate of increase in viable count gradually diminishes to no net growth with 0.2 µg/ml. With lower concentrations of thymine, the rate of cell death gradually increases, resulting in a typical thymineless death curve with 0.02 µg/ml. Both the rate of cell growth and the rate of cell inactivation vary linearly with the thymine concentration. Thirty minutes of incubation in media containing limiting concentrations of thymine before a shift to complete thymine starvation results in a progressive decrease in the length of the lag period preceding thymineless death. These data suggest that only one type of cellular damage occurs during the various degrees of thymine limitation. Prolonged preincubation in media containing 0.1 to 0.2 µg/ml of thymine results in an immunity to thymineless death. This immunity differs from that observed with amino acid-starved cells in its kinetics; ultraviolet irradiation of preincubated cells indicates that the cells are inactivated at the same rate as log-phase cells. These results suggest that the immunity is not associated with chromosome alignment. Thymine concentrations between 2 µg/ml and 0.2 µg/ml permit essentially the same amount of protein and RNA synthesis. The total amount of synthesis then decreases linearly to 40 to 50% of the control level with further reduction in the amount of thymine present. Protein and RNA synthesis are first affected at the same thymine concentration at which lethality is first detectable, and this correlation suggests that the synthesis of these macromolecules is involved in the mechanism of thymineless death. DNA synthesis, on the other hand, is directly dependent on the thymine concentration for levels of 0.5 µg/ml or less. There are no critical changes in DNA synthesis associated with lethality, and DNA synthesis is still occurring under conditions of thymine limitation which result in immunity. These observations suggest that DNA synthesis is not directly involved in thymineless death.

² Present address: Department of Biology, Oberlin College, Oberlin, Ohio 44074.

¹ This paper is derived from a dissertation submitted by Charles E. Deutch to the Graduate Dvision, University of California, Riverside, in partial satisfaction of the requirements for the degree of Doctor of Philosophy. A portion of this work was presented at the 70th Annual Meeting of the American Society for Microbiology, Boston, Mass., 26 April-1 May, 1970.

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