Bacteriophage LL-H is a virulent phage of Lactobacillus lactis LL23. A restriction map of the phage genome was constructed with various restriction endonucleases. This chromosome has a 34-kilobase size and seems to be circularly permuted. We used a bank of LL-H restriction fragments to study the expression of five of the seven main phage particle proteins. Immunoblotting experiments permitted the mapping on the chromosome of several genes coding for phage particle proteins. We also show that the gene of the main capsid protein is expressed from its own promoter in an Escherichia coli strain.
The uxuAB operon is under the dual control of uxuR- and exuR-encoded repressors whereas the exu regulon genes are regulated by the sole ExuR repressor. Mutations affecting the two exuR and uxuR regulatory genes were selected to investigate the relationship between the two repressors. The isolation of exuR and uxuR negative dominant mutations on a multicopy plasmid indicated that the active form of the two repressors was multimeric. The introduction of a uxuR negative dominant allele into a wild-type strain resulted in a significant increase in exu gene expression. This unexpected effect may have been the consequence of the formation of hybrid repressor molecules. This protein must be composed of native ExuR+ subunits aggregated with altered UxuR subunits. The same interference was observed for the exuR negative dominant allele on uxu gene derepression. The hypothesis given here implies that the two regions of the ExuR and UxuR repressors involved in the subunit aggregation present enough homologies to allow the formation of hybrid repressor molecules.
Lambda transducing bacteriophages carrying the exu region (min 66) of Escherichia coli K-12 (lambda pexu) were previously isolated. A restriction map of these phages is presented. Starting from the lambda pexu phage deoxyribonucleic acid, various endonuclease-generated exu fragments were subcloned into multicopy plasmid vectors, using in vitro recombination techniques. The precise location of the exu genes, relative to the endonuclease sites, was determined. Plasmids carrying uxaC and uxaA genes overproduced the corresponding enzymes 30- to 40-fold. When these plasmids were expressed in an in vitro protein-synthesizing system, two polypeptides of 50,500 and 53,000 molecular weights appeared and were identified as the uxaC and uxaA gene products. A 2.6-kilobase-pair deoxyribonucleic acid fragment was shown to code for a functional exuR repressor which controls the expression of the exu region. Plasmids containing this fragment overproduced the regulatory protein. It was possible to localize the operator region, uxaCo, which overlapped a PstI endonuclease site, and to confirm the transcriptional direction of the uxaC-uxaA operon from uxaC to uxaA.
The three genes of the Escherichia coli K-12 uxu region (uxu operon and regulatory gene) were isolated on a ColE1-uxu hybrid plasmid from the bank of Clarke and Carbon, and a restriction map of this region was established. In vitro recombination techniques were used to subclone the uxu restriction fragments into the plasmid vector pBR322 or pBR325. The various chimeric plasmids obtained were analyzed by restriction mapping and characterized genetically by introducing them in uxu mutant or wild-type strains. Differential rates of synthesis of the enzymes coded for by the uxu region were measured in the plasmid-containing strains; amplification of the products of the cloned genes was up to 40-fold the level found in haploid strains. The enzymes coded for by uxuA and uxuB were synthesized in vitro in a coupled transcription-translation system, confirming the results of the cloning experiments. The restriction analysis also suggests that the transcriptional direction of the uxu operon is from uxuA to uxuB and that the order of the loci in this region is: uxuR (regulatory gene), uxuB, uxuA, uxuAp (promoter), uxuAo (operator).
The two genes of the Escherichia coli K-12 uid region (the structural gene uidA and the regulatory gene uidR) were isolated on a ColE1-uid hybrid plasmid from the bank of Clarke and Carbon. We made a restriction map of this region and correlated it with the genetic map by subcloning the uid restriction fragments into plasmids pBR322, pBR325, and pACYC177. In these plasmids, amplification of the products of the uidA and uidR genes occurred. The enzyme coded for by uidA was identified by polyacrylamide gel electrophoresis of crude extracts from strains containing the uidA plasmid. A 1-megadalton EcoRI-BamHI segment contained the uidAo operator, and the direction of transcription of the uidA gene was determined. The restriction analysis also suggested that the order of the loci in this region is manA, uidA, uidAo, uidR.
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