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In pBR329, the genes providing resistance to ampicillin (beta-lactamase, bla) and chloramphenicol (chloramphenicol acetyl transferase, cat) are encoded on the same strand. The bla gene lies downstream of the cat gene, separated by an intergenic sequence of 414 bp. The transcription starts of the two genes are 1090 bp apart. We have probed, in vivo, the effect on transcription of the bla gene, of the introduction, in front of the cat gene, of a series of synthetic promoters covering a large (over 60-fold) range of efficiency. The rising efficiency of the cat promoter has several important consequences for transcription of the bla gene. First, a strong (up to sevenfold) stimulation of the bla promoter is observed, together with a shift of the main bla transcription start site, 10 bp upstream. Furthermore, the relative efficiencies of the bla transcription terminators are reduced. Finally, because of a lesser relative efficiency of the cat transcription terminators as well, we observe enhanced intrusion into the bla gene of transcripts initiated at the cat promoter, some of them extending to the bla transcription terminator and beyond. The operon-like expression of the cat-bla gene tandem is controlled by the efficiency of the cat terminator, which in turn depends on that of the cat promoter. This demonstrates a direct link between the efficiencies of promoter and terminator. Upon inhibition of bacterial gyrase activity, i.e. relaxation of negative supercoiling action, bla expression increases sharply in pBR329, but remains almost unchanged in a plasmid (pBRGC-1) in which cat is under the control of a 6.5-fold stronger promoter. Therefore, under normal gyrase activity, the stimulation of the bla promoter in pBRGC-1 (relative to pBR329) appears to be linked to topological relaxation of its template in situ, in keeping with earlier in vitro observations. We propose that the relaxed state of pBRGC-1 in situ could be due to the decrease in the plasmid linking number, introduced by the 10-12 RNA polymerases that simultaneously transcribe the cat gene in that plasmid, compared with only one or two in pBR329. We find that the negative superhelical densities of both plasmids are almost identical when extracted from the cell. Therefore gyrase would not correct for the relaxed state of plasmid pBRGC-1 observed in situ.
Mol Microbiol 1992 Jun
PMID:In vivo control of promoter and terminator efficiencies at a distance. 132 24

The genetic environment of plasmid-borne blaTEM mutant genes, encoding nine distinct TEM-type extended-spectrum beta-lactamases, was studied in transconjugants from clinical isolates of enterobacteria. Colony hybridization with probes specific for tnpA and tnpR of Tn3, tnpA and tnpI of Tn21, aacA4, and IS15, and restriction endonuclease analysis of plasmid DNA indicated that the structural genes for the enzymes were always associated with intact or deleted variants of the Tn3 family. Four of the nine blaTEM variants, which account for 62% of 222 isolates in a molecular epidemiological study, were associated with replicons indistinguishable from the epidemic Inc7-M plasmid pCFF04 that carries the blaTEM-3 gene. This suggests that mutant genes were selected from the same prototype plasmid carrying penicillinase genes blaTEM-1 or -2. A 6.6 kb DNA fragment of pCFF04 containing blaTEM-3 was characterized by amplification mapping and sequencing. The results obtained indicated that blaTEM-3 was present on a copy of Tn1 interrupted at the start codon of the transposase by a DNA sequence reminiscent of the inverted repeats of class II transposons. This partial Tn1 copy was in turn, inserted into the transposase gene of a Tn21-like transposon containing an integron expressing an aacA4 gene. The presence of an integron can account for the various assortments of aminoglycoside resistance genes found associated with blaTEM-3.
Mol Gen Genet 1992 Oct
PMID:A new example of physical linkage between Tn1 and Tn21: the antibiotic multiple-resistance region of plasmid pCFF04 encoding extended-spectrum beta-lactamase TEM-3. 133 47

We report the construction and the expression in Escherichia coli of three different fusion genes encoding the extended human IgG3 hinge region (Hi) fused in-phase to the C-terminal end of bacterial TEM1 beta-lactamase (Bla). In the first fusion gene blahi, TEM1 beta-lactamase (Bla). In the first fusion gene blahi, the hinge sequence was directly coupled to the 3' end of the beta-lactamase gene, whereas in the two other constructs, blal1hi and blal2hi, a linker encoding 14 and 10 amino acids, respectively, was inserted between the two subunits. After expression (24 h, 20 degrees C) under control of the constitutive kanamycin phosphoribosyl transferase promoter, the fusion proteins, BlaHi, BlaL1Hi and BlaL2Hi, respectively, were almost exclusively detected in the periplasmic fraction, and they conferred carbenicillin-resistance to the cells. These results indicate that beta-lactamase can efficiently direct the export of proteins fused to its C-terminus, and moreover, at least some of the exported fusion proteins must carry the beta-lactamase moiety in a properly folded form. Analysis of their assembly, however, revealed that only a minor fraction was recovered as the expected F(ab')2-like dimer. The presence in the periplasm of 'oxidized' monomers (with intrachain disulphide bonds) as well as of several high-molecular-mass proteins, probably resulting from the association between monomers and other cysteine-rich proteins, strongly suggests that the conditions in the bacterial periplasm are insufficient to allow proper assembly of multimeric proteins with several interchain disulphide bonds.
Mol Microbiol 1992 Aug
PMID:Disulphide bridge formation in the periplasm of Escherichia coli: beta-lactamase:: human IgG3 hinge fusions as a model system. 140 60

Broad-host-range plasmids carrying alpha-amylase or beta-lactamase reporter genes lacking a signal sequence were used to select export elements from Lactococcus lactis chromosomal DNA that could function as signal sequences. Fragments containing such elements were identified by their ability to direct the export of the reporter proteins in Escherichia coli. Several of the selected export elements were also active in Bacillus subtilis and L. lactis, although the efficiencies depended strongly on the host organism and reporter gene used. The export elements AL9 and BL1 were highly efficient in L. lactis in the expression and secretion of at least two heterologous proteins (Bacillus licheniformis alpha-amylase and E. coli TEM-beta-lactamase). AL9 even permitted growth of this organism on starch as the sole carbon source. Nucleotide sequence analysis of five selected fragments indicated that these encode oligopeptides with the major characteristics of typical signal peptides. The putative expression signals had a limited similarity to previously described expression signals for E. coli, B. subtilis and L. lactis. Differences in both expression and export efficiency are likely to underlie the host-specific effects.
Mol Gen Genet 1992 Sep
PMID:Protein export elements from Lactococcus lactis. 140 86

The previously cloned class A beta-lactamase gene (bla) of Streptomyces cacaoi was shown to be inducible by beta-lactam compounds in the host organism S. lividans. A regulatory region of 2.75 kb was identified and the nucleotide sequence determined. It contained four open reading frames (ORFs) of which only two were complete and required for induction. ORF1-ORF2 exerted a positive regulatory effect on the expression of bla. Inactivation of ORF1 or of ORF2 resulted not only in the loss of induction, but also in a 30- to 60-fold decrease in the basal (non-induced) level of beta-lactamase production. ORF1 codes for a DNA-binding protein related to the AmpR repressor/activator, which controls the expression of ampC (class C beta-lactamase) genes in several Enterobacteria.
Mol Gen Genet 1992 Oct
PMID:Induction of a Streptomyces cacaoi beta-lactamase gene cloned in S. lividans. 143 29

A novel mutagenesis/gene expression and protein purification scheme was established for ready construction and purification of variant immunoglobulin domains in Escherichia coli. This procedure, which has been applied to the production of the VK domain of the Bence-Jones protein REI and structural variants of it, rests on the synthesis of chimeric proteins with beta-lactamase as the amino-terminal fusion partner. The beta-lactamase not only guides the fusion protein to the periplasmic space, but also allows affinity chromatography on phenylboronate-Sepharose as an efficient and general purification procedure, independent of hypervariable loop structure. The REIv protein was released from the purified fusion protein by site-specific proteolytic cleavage. After a second passage through the same affinity column, up to 2 mg of pure REIv was obtained starting from one liter of bacterial liquid culture. A scheme of oligonucleotide-directed mutagenesis was introduced for replacement of DNA stretches encoding hypervariable loops. It exploits a colony color genetic screen and can be applied to any DNA sequence replacement. Mutations can be constructed by simple co-transformation with single-stranded template DNA and mutagenic oligonucleotide.
J Mol Biol 1992 Nov 20
PMID:General mutagenesis/gene expression procedure for the construction of variant immunoglobulin domains in Escherichia coli. Production of the Bence-Jones protein REIv via fusion to beta-lactamase. 145 48

Dihydroxyacetone synthase (DAS) and methanol oxidase (MOX) are the major enzyme constituents of the peroxisomal matrix in the methylotrophic yeast Hansenula polymorpha when grown on methanol as a sole carbon source. In order to characterize their topogenic signals the localization of truncated polypeptides and hybrid proteins was analysed in transformed yeast cells by subcellular fractionation and electron microscopy. The C-terminal part of DAS, when fused to the bacterial beta-lactamase or mouse dihydrofolate reductase, directed these hybrid polypeptides to the peroxisome compartment. The targeting signal was further delimited to the extreme C-terminus, comprising the sequence N-K-L-COOH, similar to the recently identified and widely distributed peroxisomal targeting signal (PTS) S-K-L-COOH in firefly luciferase. By an identical approach, the extreme C-terminus of MOX, comprising the tripeptide A-R-F-COOH, was shown to be the PTS of this protein. Furthermore, on fusion of a C-terminal sequence from firefly luciferase including the PTS, beta-lactamase was also imported into the peroxisomes of H. polymorpha. We conclude that, besides the conserved PTS (or described variants), other amino acid sequences with this function have evolved in nature.
Mol Gen Genet 1992 Nov
PMID:Targeting sequences of the two major peroxisomal proteins in the methylotrophic yeast Hansenula polymorpha. 146 1

The nucleotide sequences of blaLCR-1 and blaOXA-5 beta-lactamase genes have been determined. Polypeptide products of 260 and 267 amino acids with estimated molecular masses of 27 120 Da and 27,387 Da were obtained for the mature form of LCR-1 and OXA-5 proteins. A progressive alignment was used to evaluate the extent of identity between LCR-1 and OXA-5 with 29 other beta-lactamase amino acid sequences. The data showed that both belong to class D. We identified amino acids conserved in 24 positions for class A beta-lactamases and in 28 positions for five class D enzymes. The structural similarities between class A and class D beta-lactamases are more extensive than indicated by earlier biochemical studies with overall 16% identity between both classes. From the alignment, dendograms were constructed with a distance-matrix and parsimony methods which defined three major groups of proteins subdivided into clusters giving insight on beta-lactamase phylogeny and evolution.
Mol Microbiol 1992 Jun
PMID:Phylogeny of LCR-1 and OXA-5 with class A and class D beta-lactamases. 149 94

In vitro gene fusions were constructed between the polygalacturonase-encoding pehA gene of the Erwinia carotovora subsp. carotovora (Ecc) strain SCC3193 and the bla gene of pBR322. The gene fusions obtained (75-2, 75-5 and 75-6) encoded hybrid proteins with the entire signal peptide and 70, 260 or 327 amino acids (aa) of the mature 376 aa PehA protein, respectively, fused to the mature part of the periplasmic beta-lactamase. All three hybrid proteins remained cell-bound in Ecc. High-level expression of the longer fusions 75-5 and 75-6 in Ecc led to reduced growth and viability of the cells. This phenotype was utilized to select for spontaneous extragenic mutations restoring normal cell growth. Two classes of regulatory mutants were obtained by this selection. First, mutants impaired in the production of several exoenzymes, including polygalacturonase, were found. These were phenotypically similar to the previously characterized Exp- mutants. Secondly, mutants specifically impaired in the production of polygalacturonase (designated PehR-), but producing and secreting wild-type levels of pectate lyase and cellulase, were obtained. The PehR- mutations were shown to affect transcriptional activation of the pehA gene. Furthermore, the PehR- as well as PehA- mutants exhibited a reduced virulence phenotype suggesting that polygalacturonase is a virulence factor in Ecc.
Mol Gen Genet 1992 Jul
PMID:Expression of pehA-bla gene fusions in Erwinia carotovora subsp. carotovora and isolation of regulatory mutants affecting polygalacturonase production. 149 88

The hybrid prokaryotic lipo-beta-lactamase mature and precursor proteins spontaneously form an intramolecular disulphide bond when oxidized in vitro. When expressed in Saccharomyces cerevisiae (in vivo) the lipo-beta-lactamase precursor is in a reduced form whereas the majority of the mature protein is oxidized. The results indicate that in yeast, the lipo-beta-lactamase precursor is first processed (the signal peptide is removed) and then oxidized to form a disulphide bond in the mature protein. Reduced-mature lipo-beta-lactamase was found to reach the yeast periplasm and the process depends on endoplasmic reticulum (ER) entry even though the protein is not oxidized. This result is remarkable since in eukaryotes, disulphide bond formation occurs in the ER. Oxidized mature lipo-beta-lactamase can also be released from the sphaeroplast into the yeast periplasm. Mutant lipo-beta-lactamase genes in which cysteine residue 131 was changed to either tyrosine or threonine, were efficiently processed and secreted in yeast, which is consistent with the finding that reduced-mature non-mutant lipo-beta-lactamase can be secreted. We discuss the possibility that the folding mechanism of lipo-beta-lactamase in vitro may be fundamentally different from the process in the eukaryotic system of S. cerevisiae.
Mol Microbiol 1992 Jan
PMID:The relationship between disulphide bond formation, processing and secretion of lipo-beta-lactamase in yeast. 154 4

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