In vivo regulation of chromosomal beta-lactamase in Escherichia coli

Chromosomal beta-lactamase, a periplasmic enzyme of Escherichia coli, was studied with respect to its regulation in vivo. Both the activity and the amount of beta-lactamase increased with growth rate. During a nutritional shift-down, chromosomal beta-lactamase activity followed stable ribonucleic acid accumulation. After a nutritional shift-up the differential rate of beta-lactamase synthesis did not increase immediately (like stable ribonucleic acid), but did increase after a lag period of 30 min. To determine whether beta-lactamase was under stringent control, strains carrying a temperature-sensitive valyl-transfer ribonucleic acid synthetase and differing only in the allelic state of the relA gene were shifted from a permissive to a semipermissive temperature. No influence by the relA gene product was found on beta-lactamase synthesis. The regulation of this periplasmic enzyme is discussed in relation to that of some components of the translational apparatus.</jats:p

Identification of Francisella species and discrimination of type A and type B strains of F. tularensis by 16S rRNA analysis

Tularemia is a zoonotic disease, occurring throughout the Northern Hemisphere. The causative agent, the bacterium Francisella tularensis, is represented by two main types. Type A is found in North America, whereas type B is mainly found in Asia and Europe and to a minor extent in North America. No routine technique for rapid diagnosis of tularemia has been generally applied. We have partially sequenced 16S rRNAs of two F. tularensis strains, as well as the closely related Francisella novicida. Of 550 nucleotides analyzed, only one difference in 16S rRNA primary sequence was found. This 16S rRNA analysis enabled the construction of oligonucleotides to be used as genus- and type-specific probes. Such probes were utilized for the establishment of a method for rapid and selective detection of the organism. This method allowed identification of Francisella spp. at the level of genus and also discrimination of type A and type B strains of F. tularensis. The analysis also permitted the detection of F. tularensis in spleen tissue from mice infected with the bacterium. The results presented will enable studies on the epizootiology and epidemiology of Francisella spp.</jats:p

Identification of Francisella species and discrimination of type A and type B strains of F. tularensis by 16S rRNA analysis.

Tularemia is a zoonotic disease, occurring throughout the Northern Hemisphere. The causative agent, the bacterium Francisella tularensis, is represented by two main types. Type A is found in North America, whereas type B is mainly found in Asia and Europe and to a minor extent in North America. No routine technique for rapid diagnosis of tularemia has been generally applied. We have partially sequenced 16S rRNAs of two F. tularensis strains, as well as the closely related Francisella novicida. Of 550 nucleotides analyzed, only one difference in 16S rRNA primary sequence was found. This 16S rRNA analysis enabled the construction of oligonucleotides to be used as genus- and type-specific probes. Such probes were utilized for the establishment of a method for rapid and selective detection of the organism. This method allowed identification of Francisella spp. at the level of genus and also discrimination of type A and type B strains of F. tularensis. The analysis also permitted the detection of F. tularensis in spleen tissue from mice infected with the bacterium. The results presented will enable studies on the epizootiology and epidemiology of Francisella spp