Low-temperature-induced rate transitions in DNA synthesis of Escherichia coli 15T.

DNA synthesis rates were measured in Escherichia coli 15T^? (555-7) at each degree increment in the range of 8 to 37 °C. These measurements were made (a) by means of continuous incorporation of thymine into temperature-equilibrated cultures, (b) by incorporation of short pulses of thymidine into chilled, intact cells, or (c) by incorporation of deoxynucleotide triphosphate into chilled, toluenized cells. Measurements were made in wild type and in a fast-growing mutant, with each assayed at doubling times of less than 60 min (glucose-grown cells) and greater than 60 min (aspartic acid-grown cells). Rates of DNA synthesis from each experimental system were plotted according to the method of Arrhenius, and data points fitted to either one, two, or three lines.Using the slopes of the regression lines as a general index of temperature coefficients, it is possible to relate growth history, medium (or growth rate), and cell type to temperature coefficients. Only in temperature-equilibrated cells did DNA synthesis possibly have a single temperature coefficient across the entire 8 to 37 °C range; in cells grown at 37 °C and cooled to a lower temperature before DNA synthesis was measured, at least two temperature coefficients were observed. In addition to affecting the actual slopes of the regression lines, growth history, medium (or growth rate), and cell type appear to affect the temperatures at which slopes change. Collectively, these observations show that DNA synthesis rates measured at certain low temperatures cannot routinely be extrapolated to higher temperatures, to different growth conditions, or to other strains.