Mutagenesis and regulation of the cysJ promoter of Escherichia coli K-12.

The cysJ promoter of Escherichia coli K-12, which is positively controlled by the CysB regulatory protein, was localized through the formation of a fusion of cysJ, the gene encoding NADPH-cytochrome c reductase with lacZ. The position of the transcription start point was determined and the orientation of transcription was shown to be counterclockwise on the E. coli K-12 map. Oligodeoxyribonucleotide-directed mutagenesis of the inferred -10 and -35 regions indicated that both sites could be altered to produce promoter 'down' mutations. When the -10 region was made to agree with the -10 consensus sequence, there was increased function under conditions of repression (that is, in the presence of cysteine). Upstream deletions, as well as mutations in a region proposed to be involved in binding of the CysB regulatory protein, identified sequences important for promoter activity from -90 to -78 and from -71 to -66. By comparison of the sequences of four cys promoters, a possible CysB-binding site was found which included the region shown to be required for the positive regulation of the cysJ promoter.

Promoter elements and regulation of expression of the cysD gene of Escherichia coli K-12.

The cysD gene, involved in cysteine biosynthesis in Escherichia coli and Salmonella typhimurium, is positively regulated by the CysB regulatory protein. The cysD promoter of E. coli K-12 in a 492-bp PstI-Eco RI fragment was sequenced. The in vivo transcription start point (tsp) for the cysD gene was determined by the methods of T4 DNA polymerase mapping and mung-bean nuclease mapping. The -10 region of the cysD promoter (TATAGT) is closely homologous to the -10 consensus sequence (TATAAT) for E. coli promoters. The -35 region of this promoter (TTCATT) is less closely related to the -35 consensus sequence (TTGACA). Several mutants were obtained by using a chain-termination method for generating unidirectional deletions. Evidence is presented for a possible CysB protein binding site around -89, thought to be involved in regulation of expression of the cysD gene.

Promoter-detection vectors for Escherichia coli with multiple useful features.

Two promoter-detection vectors have been constructed which enable the cloning and characterization of promoters recognized by the RNA polymerase of Escherichia coli K-12. The intergenic region of phage M13 DNA, present in opposite orientations in the two vectors, permits the preparation of single-stranded DNA of either strand of the insert thus facilitating oligodeoxyribonucleotide heteroduplex mutagenesis and sequencing of both strands by the dideoxy method of chain termination. After mutagenesis, isolates can be screened for changed function by replica-plating colonies to plates containing XGal. Selected isolates can be characterized by nucleotide sequence analysis, to determine the change in structure, and by beta-galactosidase assays, thus measuring the effect of mutagenesis on promoter function. The vectors could also be used like other protein-fusion vectors.

Lambda transducing phage and clones carrying genes of the cysJIHDC gene cluster of Escherichia coli K12.

DNA from each of two specialized transducing lambda phage, lambda dcysJIHD and lambda cysJ, has been analysed by heteroduplex mapping. The segment of the Escherichia coli chromosome carried by lambda dcysJIHD was shown to be large, approximately 18 kb in length, and to replace a large length of lambda DNA, approximately 11 kb, which includes the genes for integration and recombination. Thus lambda dcysJIHD is a bio-type transducing phage. lambda cysJ was shown to have lost very little lambda DNA and to carry about 8 kb of bacterial DNA. Sites for several restriction endonucleases were mapped in the DNA from each phage and cloning experiments located some of the genes of the cluster in relation to the restriction map. Cysteine regulation of the cloned cysJ and cysD genes was shown as well as cysteine regulation of beta-galactosidase in some constructs. The direction of transcription of the cysD gene was established, and from physical evidence the size of the 'silent section' between the cysH and cysD genes was estimated to be at least 11 kb.

Isolation and characterization of a lambda transducing bacteriophage carrying the cysE gene of Escherichia coli K-12.

A specialized lambda transducing phage carrying the cysE and gpsA genes of E. coli K-12 has been isolated. The transducing phage has been separated from the helper phage on equilibrium gradients and has been shown to be defective. Evidence is presented that the phage kil gene is not expressed.

Isolation of a lambdadcys transducing bacteriophage and its use in determining the regulation of cysteine messenger ribonucleic acid synthesis in Escherichia coli K-12.

A defective specialized lambda transducing phage carrying the cysJ, cysI, cysH, and cysD genes has been isolated from a secondary-site lysogen. Deoxyribonucleic acid-ribonucleic acid (DNA-RNA) hybridization studies utilizing this phage have been carried out to detect cysteine-specific messenger RNA (cys mRNA) synthesized in vivo. A vivo. A 3.5- to 9-fold increase in the rate of synthesis of cys mRNA has been detected in the derepressed wild-type (Cys+) strain grown on glutathione compared with a repressed control grown on cystine. Pleiotropic cysE and cysB mutants grown on glutathione were found to possess rates of synthesis of cys mRNA that were significantly lower than their derepressed isogenic parent. The addition of O-acetyl-L-serine to the cysE strain produced a 5.5-fold increase in the rate of synthesis of cys mRNA. These results indicate that cysteine biosynthesis is controlled at the level of transcription by the inducer O-acetylserine, the cysB protein and cyst(e)ine.

Isolation and characterization of cysK mutants of Escherichia coli K12.

cysK mutants, deficient in O-acetylserine sulphydrylase A [O-acetyl-L-serine acetate-lyase (adding hydrogen-sulphide); EC 4.2.99.8], were isolated as strains resistant to selenite or giving a black colour reaction on bismuth citrate indicator medium. All were resistant to the inhibitor I,2,4-triazole. Four independent mutants were found which possessed lowered levels of O-acetylserine sulphydrylase activity and also partially constitutive levels of NADPH-sulphite reductase [hydrogen-sulphide: NADP+ oxidoreductase; EC I.8.I.2]. Strains containing both a cysE mutation and a cysK mutation lacked the constitutive levels of NADPH-sulphite reductase showing that these levels were due to the in vivo concentration of the inducer, O-acetylserine. The cysK locus was found to be 81% cotransducible with the ptsI gene.

Polarity of the cysJIH operon of Salmonella typhimurium.

Certain point and deletion mutants with lesions in the cysJ gene of Salmonella typhimurium have low levels of enzymes coded by the cysI and cysH genes. These results support the hypothesis that an operon exists comprising genes cysJ, I and H which is transcribed in the direction from cysJ to H. The nearby cysC and cysD genes do not form part of this cysJIH operon.