A simple procedure for cloning and stable insertion of foreign genes into the chromosomes of gram-negative eubacteria was developed by combining in two sets of plasmids (i) the transposition features of Tn1O and TnS; (ii) the resistances to the herbicide bialaphos, to mercuric salts and organomercurial compounds, and to arsenite, and (iii) the suicide delivery properties of the R6K-based plasmid pGP704. The resulting constructions contained unique NotI or SfiI sites internal to either the Tn1O or the TnS inverted repeats. These sites were readily used for cloning DNA fragments with the help of two additional specialized cloning plasmids, pUC18Not and pUC18Sfi. The newly derived constructions could be maintained only in donor host strains that produce the R6K-specified protein, which is an essential replication protein for R6K and plasmids derived therefrom. Donor plasmids containing hybrid transposons were transformed into a specialized Xpir lysogenic Escherichia coli strain with a chromosomally integrated RP4 that provided broad-host-range conjugal transfer functions.
The promoter region of the pColV-K30-encoded operon specifying biosynthesis and transport of the siderophore aerobactin was subjected to deletion analysis to determine the smallest DNA sequence affording iron regulation of a iucA'-'lacZ gene fusion. A 78-base-pair (bp) region containing the main (P1)
A fusion between the fur (ferric uptake regulation) gene, known to mediate negative regulation of iron absorption in Escherichia coli, and lacZ was constructed in vitro. P-Galactosidase levels of cells harboring this fusion were under the control of sequences contained in a 185-bp DNA fragment located upstream of the fur structural gene. The fusion was prepared in multicopy (pVLN102 plasmid) and low-copy-number states, the latter constructed as a I phage lysogen carrying a fur'-'lacZ insert. DNase I footprinting experiments with purified Fur protein, performed on a 250-bp restriction fragment carrying the promoter region of the fusion, showed the presence of a single Fur-protected site overlapping the -10 region of a potential promoter sequence. Examination of the DNA sequences located upstream of the fur gene revealed a possible binding site for the catabolite-activator protein (CAP). P-Galactosidase synthesis of E. coli cells harboring the fusion were measured in fur, crp and cya genetic backgrounds and compared with the corresponding levels in wild-type strains. The data obtained indicate a moderate autoregulation of fur expression by its gene product and also a significant stimulation by the CAMP-CAP system. Transcription start sites were mapped by primer-extension experiments with total RNA obtained in vivo from cells harboring pVLN102. The results show that transcription of thefur gene is initiated from at least two different sites separated by 6 bp, which appear to originate from two overlapping promoters sensitive to catabolic activation.
Transcription from promoter Pu of the upper catabolic operon of the Pseudomonas putida TOL plasmid which specifies conversion of toluene/xylenes to benzoate/toluates is activated by the TOL‐encoded regulator XylR protein in the presence of substrates of the catabolic pathway and in conjunction with the sigma 54(NtrA)‐containing form of RNA polymerase. This regulatory circuit was faithfully reproduced in Escherichia coli in single copy gene dosage by integrating the corresponding controlling determinants into the chromosomes of several K12 derivatives by means of specialized transposons. In vivo monitoring of the activity of a Pu‐lacZ fusion in E. coli strains with different genetic backgrounds demonstrated that integration host factor (IHF) is involved in Pu regulation and that hyperproduction of the XylR protein leads to a decrease of Pu activity in a manner in which deletion of the putative DNA‐binding domain of the XylR does not impair its inhibitory effect when hyperproduced. One discrete IHF binding site and two potential XylR sites (consensus sequence 5′‐TTGANCAAATC‐3′), bracketted by short stretches of DNase I‐hypersensitive bonds, were detected upstream of the transcription initiation site. A model accounting for the features found is proposed which includes the IHF‐promoted looping of upstream XylR‐DNA complexes so that they contact the sigma 54(NtrA)‐RNA polymerase bound at ‐12/‐24 positions.
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