Showing papers by "Graham C. Walker published in 1984"

General transduction in Rhizobium meliloti.

Abstract: General transduction by phage phi M12 in Rhizobium meliloti SU47 and its derivatives is described. Cotransduction and selection for Tn5 insertions which are closely linked to specific loci were demonstrated. A derivative of SU47 carrying the recA::Tn5 allele of R. meliloti 102F34 could be transduced for plasmid R68.45 but not for chromosomally located alleles. Phage phi M12 is morphologically similar to Escherichia coli phage T4, and restriction endonuclease analysis indicated that the phage DNA was ca. 160 kilobases in size. Images

groEL and dnaK genes of Escherichia coli are induced by UV irradiation and nalidixic acid in an htpR+-dependent fashion

Abstract: Two proteins with molecular weights of 61,000 and 73,000 were found to be induced by UV light in Escherichia coli mutants in which the SOS responses are constitutively expressed. The induction of these proteins by UV light and nalidixic acid was shown to be independent of the recA+ lexA+ regulatory system. Analysis of these proteins by two-dimensional gel electrophoresis and comparison with the "heat-shock" proteins of E. coli revealed that the Mr 61,000 protein comigrated with the groEL gene product, that the Mr 73,000 protein comigrated with the dnaK gene product, and that other heat-shock proteins were also induced. The induction of groEL and dnaK by UV light and nalidixic acid is controlled by the htpR locus. The results suggest that the regulatory response of E. coli to agents such as UV light and nalidixic acid is more complex than previously thought.

Host-dependent transposon Tn5-mediated streptomycin resistance.

Abstract: Transposon Tn5 encodes streptomycin resistance in addition to kanamycin-neomycin resistance. This resistance was not detectable in Escherichia coli but was efficiently expressed in Rhizobium meliloti and certain other strains. By analysis of cloned Tn5 restriction endonuclease fragments, the streptomycin resistance (str) gene was located in the right-hand side of the central region as the transposon is conventionally drawn. Transcription of str appeared to originate at pL, the promoter for the neo gene (neomycin phosphotransferase type II). Expression of streptomycin resistance in E. coli was obtained after cloning of the neo-str region downstream of a strong E. coli promoter. A construct in which PL was deleted also showed differential expression of streptomycin resistance.

Anaerobiosis induces expression of ant, a new Escherichia coli locus with a role in anaerobic electron transport.

Abstract: Escherichia coli has a formate hydrogenlyase system which allows it to maintain an electron balance during anaerobic growth by passing electrons from formate to H+ ions, thus generating H2. The Mu d1(Ap lac) bacteriophage was used to generate mutants that were defective in passing electrons from formate to benzyl viologen, an artificial electron acceptor. A subset of these mutants was studied in which beta-galactosidase was expressed at much higher levels under anaerobic conditions than under aerobic conditions. If nitrate was present during anaerobic growth, the same levels of beta-galactosidase were seen in these fusion strains as were seen under aerobic conditions. The Mu d1(Ap lac) insertions in these mutants were genetically mapped between mutS and srl and thus define a new locus we have termed ant (anaerobic electron transport). Recombinant lambda derivatives were isolated which complemented the deficiency of the ant mutants in anaerobic electron transport and also carried a trans-acting region of DNA which reduced expression of the ant-lac fusions under anaerobic conditions; a probe to the ant region was generated from one of these recombinant lambda derivatives. Southern hybridization analysis revealed that the four independent ant::Mu d1(Ap lac) fusions we isolated spanned an approximately 5-kilobase region and that all were transcribed in the same direction, counterclockwise on the E. coli genetic map.