Abnormal metabolism of thymidine nucleotides in ultraviolet-irradiated dTDPG pyrophosphorylase-deficient mutants of Escherichia coli K12

Structure of the core regions in lipopolysaccharides from Escherichia coli K12 W2252-11U-, the Ter-15 mutant, and Ter-15 (F'-lac) and Ter-15 (F+) cells

From Escherichia coli K12 W2252-11U-cells, the Ter-15 mutant, the Ter-15 (F'-lac) and the Ter-15 (F+) cells, lipopolysaccharides were isolated and the primary structure of its core oligosaccharides was elucidated. When the F'-lac episome is transferred to the Ter-15 mutant by conjugation, the structure of the glucose III(1 leads to 3)glucose II(1 leads to 3)glucose I residue and the galactose I(1 leads to 2)-linked to the glucose I residue in the core oligosaccharide from the Ter-15 mutant changes into the structure of the glucose IV(1 leads to 6)glucose III(1 leads to 2)glucose II(1 leads to 3)glucose I residue and the galactose I (1 leads to 6)-linked to the glucose I residue in the core oligosaccharide from the Ter-15 (F'-lac) cells, but the core oligosaccharide in the Ter-15 (F+) cells is the same structure with that of the core oligosaccharide from the Ter-15 mutant when F+ episome is transferred to the Ter-15 mutant. Also, the core oligosaccharide from the Ter-15 (F'-lac) cells shows the same structure with that of the core oligosaccharide from E. coli K12 W2252-11U- cells (the parent cells). As the result, the ability to produce the structure of the core oligosaccharide in E. coli K12 W2252-11U- cells is recovered in the Ter-15 (F'-lac) cells by the dominant expression of lac gene or its containing DNA segment in F'-lac episome.

Diameter of cells of a thermosensitive dnaA mutant of Escherichia coli cultivated at intermediate temperatures

Strains of Escherichia coli K-12 carrying the dnaA46 mutation exhibited a progressively decreasing DNA concentration and a progressively increasing cell size as the temperature was raised from 31 to 37 degrees C. Above 37 degrees C, steady-state exponential growth could not be maintained. The increase in average cell size with increasing growth temperature was due to an increase in cell length. There was no change in cell width. This seems to rule out the hypothesis that the increase in cell width in thy strains cultivated on low concentrations of thymine is due to the decrease in DNA concentration which also occurs under these conditions.

Chromosome replication rate and cell shape in Escherichia coli: lack of coupling

The dimensions of Rep- cells of Escherichia coli K-12 were measured and compared with those of their Rep+ isogenic cells (both Thy-), Rep- cells cultivated identically were longer (but not wider), even though both strains were wider when the rate of chromosome replication was slowed down by lowering the thymine concentration supplied. This eliminates the possibility that cell shape is determined by this rate. Simulating Thy+ phenotype by adding deoxyguanosine resulted in shorter Rep- cells when growth was faster. This excludes a simple relationship between cell elongation and growth rate, but is consistent with a linear proportionality between the rate of surface synthesis and growth. Thymine limitation of fast-growing Thy- E. coli K-12 cells is shown to result in loss of their uniform shape and production of bizarre morphologies, apparently due to imbalanced synthesis of wall components.