Accumulation of cyclic GMP in filaments of Escherichia coli BUG6

Cloning of the fic-1 gene involved in cell filamentation induced by cyclic AMP and construction of a delta fic Escherichia coli strain

PA3092 is an Escherichia coli mutant that forms filaments at 43 degrees C in the presence of cyclic AMP (cAMP). The mutation responsible for this phenotype is called fic-1. We cloned fic-1 from PA3092 by selection for the neighboring argD gene. The fic-1 gene product had a relative molecular mass of 21 kilodaltons by the maxicell method. A strain with the fic gene completely deleted was constructed by replacing fic with a kanamycin resistance gene. In one of the fic-deleted strains derived from PA3092, cAMP did not induce cell filamentation at 43 degrees C, but it did in the same strain harboring a plasmid containing the fic-1 gene. These results indicate that the fic-1 gene product is necessary for the induction of cell filamentation by cAMP but is dispensable to the cell. We also found that high levels of NaCl suppressed the cell filamentation induced by cAMP.

Indirect role of adenylate cyclase and cyclic AMP in chemotaxis to phosphotransferase system carbohydrates in Escherichia coli K-12

Most strains of Escherichia coli K-12 lacking the enzyme adenylate cyclase showed normal chemotaxis toward carbohydrates taken up and phosphorylated by the phosphoenolpyruvate-dependent carbohydrate: phosphotransferase system. The normal reaction was observed even in the absence of externally added cyclic adenosine 3',5'-phosphate, provided that the enzyme II chemoreceptors and the flagella were synthesized. In the CA8306 series of strains, however, the cya-854 deletion abolished chemotaxis toward phosphotransferase system carbohydrates even though growth on and transport of these carbohydrates were not affected. This abnormal phenotype was due to the presence of a specific mutation in strain CA8306 which mapped in or close to the crp locus and apparently prevented expression of a hitherto unidentified molecule involved in enzyme II-mediated signal transduction. This molecule is neither a pts protein nor a cyclic adenosine 3',5'-phosphate-binding protein.

Temperature-sensitive catabolite activator protein in Escherichia coli BUG6

BUG6 is a temperature-sensitive cell division mutant which forms filaments at the nonpermissive temperature. Synthesis of the maltose- and galactose-binding protein-dependent transport systems is also temperature sensitive in BUG6. Using operon and protein fusions of the maltose transport genes to lacZ, we observed that the temperature-sensitive control of the maltose transport system in BUG6 occurs at the transcriptional level. By P1-mediated transductions, we found that BUG6 contains two independent temperature-sensitive mutations. One maps between 2 and 3 min on the Escherichia coli linkage map, in close proximity to the fts-envA region. This mutation is responsible for temperature-sensitive cell division. The other mutation maps at 73 min in crp, the structural gene of the catabolite activator protein. The latter could be complemented by a hybrid plasmid carrying the wild-type crp as the only gene on a 0.9-kilobase HindIII-AluI restriction fragment. The mutation in crp alone was found to be responsible for the temperature-sensitive synthesis of the maltose transport system. Although it causes a complete block of transcription of the maltose transport genes at 41 degrees C, this mutation had only a marginal effect on the transcription of the lac operon.