Streptomyces marker plasmids for monitoring survival and spread of streptomycetes in soil.

Plasmid constructs pNW1 through pNW6 containing a controllable xylE gene (for catechol 2,3-dioxygenase) were introduced into Streptomyces lividans strains to provide a selectable marker system. xylE functions in S. lividans under the control of bacteriophage lambda promoters lambda pL and lambda pR. Thermoregulated expression of xylE is provided through the lambda repressor cI857. Catechol 2,3-dioxygenase activity was increased 2.8-fold from plasmid construct pNW2 (lambda pL, xylE, cI857) and 9.5- and 7.4-fold from constructs pNW3 (lambda pR, xylE, cI857) and pNW5 (lambda pR, xylE, cI857), respectively, when the temperature was shifted from 28 degrees C to 37 degrees C. The stability of the constructs varied from 4.7% for pNW2 to 99.4% for pNW4 (lambda pL, xylE) over two rounds of sporulation. Marked S. lividans strains released into soil systems retained the XylE phenotype for more than 80 days, depending on the marker plasmid, when examined by a selective plating method. Furthermore, S. lividans harboring plasmid pNW5 was detectable by nucleic acid hybridization at less than 10 CFU g-1 (dry weight) of soil as mycelium and 10(3) CFU g-1 (dry weight) of soil as spores with the xylE marker DNA extracted from soil and amplified by using the polymerase chain reaction.     

Differential regulation of lambda pL and pR promoters by a cI repressor in a broad-host-range thermoregulated plasmid marker system.

Plasmid systems with unique markers were constructed to assess the fate of recombinant DNA and genetically manipulated bacteria in soil and freshwater model environments. On such constructs the marker gene, xylE (for catechol 2,3-dioxygenase), is expressed from the lambda promoter pL or pR, each of which is controlled by the temperature-sensitive lambda repressor c1857. Combinations of these elements were cloned into the broad-host-range plasmid pKT230 to form pLV1010 (pL-xylE), pLV1011 (pL-xylE-c1857), and pLV1013 (pR-xylE-c1857). The recombinant plasmids were introduced into different gram-negative bacteria. The thermoregulated system of pLV1013 functioned well in a range of species, with xylE induction being readily achieved by elevation of the temperature from 28 to 37 degrees C. There was a difference in the induction of catechol 2,3-dioxygenase activity, depending on whether xylE was expressed from pL (pLV1011) or pR (pLV1013). Our observations on testing the different systems in a number of hosts suggest that genes carried by the DNA of genetically engineered microorganisms may not be expressed in a predictable manner following transfer from the release host to other species.     

Differential regulation of lambda pL and pR promoters by a cI repressor in a broad-host-range thermoregulated plasmid marker system

Plasmid systems with unique markers were constructed to assess the fate of recombinant DNA and genetically manipulated bacteria in soil and freshwater model environments. On such constructs the marker gene, xylE (for catechol 2,3-dioxygenase), is expressed from the lambda promoter pL or pR, each of which is controlled by the temperature-sensitive lambda repressor c1857. Combinations of these elements were cloned into the broad-host-range plasmid pKT230 to form pLV1010 (pL-xylE), pLV1011 (pL-xylE-c1857), and pLV1013 (pR-xylE-c1857). The recombinant plasmids were introduced into different gram-negative bacteria. The thermoregulated system of pLV1013 functioned well in a range of species, with xylE induction being readily achieved by elevation of the temperature from 28 to 37 degrees C. There was a difference in the induction of catechol 2,3-dioxygenase activity, depending on whether xylE was expressed from pL (pLV1011) or pR (pLV1013). Our observations on testing the different systems in a number of hosts suggest that genes carried by the DNA of genetically engineered microorganisms may not be expressed in a predictable manner following transfer from the release host to other species.     

Altered temperature induction sensitivity of the lambda pR/cI857 system for controlled gene E expression in Escherichia coli

Cell lysis of Gram-negative bacteria can be efficiently achieved by expression of the cloned lysis gene E of bacteriophage PhiX174. Gene E expression is tightly controlled by the rightward lambda pR promoter and the temperature-sensitive repressor cI857 on lysis plasmid pAW12. The resulting empty bacterial cell envelopes, called bacterial ghosts, are currently under investigation as candidate vaccines. Expression of gene E is stringently repressed at temperatures up to 30 degrees C, whereas gene E expression, and thus cell lysis, is induced at temperatures higher than 30 degrees C due to thermal inactivation of the cI857 repressor. As a consequence, the production of ghosts requires that bacteria have to be grown at 28 degrees C before the lysis process is induced. In order to reflect the growth temperature of pathogenic bacteria in vivo, it seemed favorable to extend the heat stability of the lambda pR promoter/cI857 repressor system, allowing pathogens to grow at 37 degrees C before induction of lysis. In this study we describe a mutation in the lambda pR promoter, which allows stringent repression of gene E expression at temperatures up to 36 degrees C, but still permits induction of cell lysis at 42 degrees C.     

Fine regulation of cI857-controlled gene expression in continuous culture of recombinant Escherichia coli by temperature.

The expression at different temperatures of the lacZ gene, which is controlled by the lambda pL and pR tandem promoters and the cI857 temperature-sensitive repressor, was studied in Escherichia coli continuous cultures. At temperatures between 30 and 42 degrees C, beta-galactosidase activity behaved according to an exponential equation. By inducing a culture at a temperature within this range, predefined, nearly constant submaximal levels of gene expression and recombinant product yield can be obtained.     

A 'phase-shift' fusion system for the regulation of foreign gene expression by lambda repressor in gram-negative bacteria

A 'phase-shift' translation fusion vector was constructed in which mutually compatible restriction sites BamHI, BclI and BglII are positioned in such a manner that the cut point is in a different reading frame, immediately following the ATG start codon and ribosome-binding site of the lambda cro gene. The lambda cro gene is expressed from promoter pR and controlled by a thermosensitive (cI857) lambda repressor. The usefulness of the expression vector was demonstrated using a galK gene lacking the ATG start codon and fusing this to the pR promoter and ATG start codon of the lambda cro gene, resulting in cI857-regulated expression of galactokinase. The vector is of general use for foreign gene expression in Escherichia coli when the target gene has a compatible cohesive end (5'-GATC-3') at the N terminus (provided, for example, by a BamHI linker). The lambda cI857-pR-cro-galK cassette was cloned into pJRD215, a wide-host-range plasmid and transferred by conjugation to a variety of Gram-negative bacteria. In all cases, thermosensitive regulation of galactokinase could be demonstrated, though the levels of induction varied considerably. These results show that the powerful lambda pR promoter and the efficient lambda repressor can be used to regulate expression of foreign genes in Gram-negative organisms other than E. coli.     

Heat-inducible autolytic vector for high-throughput screening

In directed evolution, a high-throughput screening system is often a prerequisite for sampling the enzyme variants. When the target enzyme is expressed intracellularly, for example when Escherichia coli is used as the host, chemical or enzymatic disruption of cell membrane is often required in many cases, which can be tedious, time-consuming, and costly. In this study, a set of heat-inducible autolytic vectors were constructed to solve this problem, in which the SRRz lysis gene cassette from bacteriophage lambda was placed downstream of heat-inducible promoters, lambda cI857/pR promoter and its mutant, c1857/pR(M). The artificial autolytic units were inserted into the backbone of pUC18 (away from the multiple cloning sites). For the wild promoter; cI857/pR, the SRRz lysis cassette was expressed by temperature up-shift from 28 degrees to 38 degrees C, and the lysis efficiency of transformed bacterial cells was found to be consistent and could reach 96.3% as measured by the reporter beta3-galactosidase assay. In order to obtain a higher cell growth rate, the mutant promoter cI857/pR(M) was utilized to allow bacteria growth at 35 degrees C and lysis at 42 degrees C. However; this heat-inducible system showed significant inconsistency in terms of lysis efficiency. Bacillus subtilis 168 lipase A gene was further inserted into the multiple cloning sites of the autolytic vector containing cI857/pR, and 93.7% of the expressed lipase activity was found in the culture medium upon heat induction, demonstrating the utility of the vector for expression and rapid extracellular assay of heterologous enzymes.     

DNA rearrangements in a hybrid plasmid carrying the redB imm region of coliphage lambda

The hybrid plasmid consisting of pSC101 and the redB--N--imm region of phage lambda cI857 persists in cells grown at 30 degrees C but not in cells grown at 37 degrees C. In the latter case the plasmid was found to undergo several modifications. Restriction maps of these new plasmids indicate the following modifications: (1) the insertion of an IS1 element into gene N carried by the lambda fragment; (2) a mutation in the pL oL site of the same fragment, and (3) four large deletions (30 to 50% of the hybrid plasmid) which remove almost the entire lambda fragment. For the latter deletions, one endpoint seems to be fixed in the same restriction fragment of pSC101 while the other endpoint assumes four different positions on the lambda fragment; this might suggest a site-specific recombination event.     

Method for selection of transposable DNA and characterization of a new insertion sequence, IS493, from Streptomyces lividans.

A method to select for transposable elements from Streptomyces spp. by using insertional inactivation of a repressor gene that functions in Escherichia coli was developed. Plasmid pCZA126, which can replicate in Streptomyces spp. or E. coli, contains a gene coding for the lambda cI857 repressor and a gene, under repressor control, coding for apramycin resistance. E. coli cells containing the plasmid are apramycin sensitive but become apramycin resistant if the cI857 repressor gene is disrupted. Plasmids propagated in Streptomyces spp. can be screened for transposable elements that have disrupted the cI857 gene by transforming E. coli cells to apramycin resistance. This method was used to isolate a new 1.6-kilobase insertion sequence, IS493, from Streptomyces lividans CT2. IS493 duplicated host DNA at the target site, had inverted repeats at its ends, and contained two tandem open reading frames on each strand. IS493 was present in three copies in the same genomic locations in several S. lividans strains. Two of the copies appeared to be present in regions of similar DNA context that extended at least 11.5 kilobases. Several other Streptomyces spp. did not appear to contain copies of IS493.     

A plasmid vector with temperature-controlled gene expression

A 169 b.p. fragment including the bla gene promoter p3 has been removed from pBR327 plasmid, and the deleted plasmid used for cloning the TaqI/BglII-fragment of the lambda c1857ind- DNA containing promoter pR and gene cI to obtain plasmid pCE119. Cells containing pCE119 produced a high level of beta-lactamase at 42 degrees C, the yield at 42 degrees C being 100 times higher than at 32 degrees C. For cloning and functional assays a pCEZ12 plasmid was constructed, in which promoter pR and repressor cI of lambda phage control the expression of the semi-synthetic beta-galactosidase gene. Yield of beta-galactosidase produced by pCEZ12 at 42 degrees C was ca. 300 times higher than at 32 degrees C.     

Low-copy-number plasmid-cloning vectors amplifiable by derepression of an inserted foreign promoter

By insertion of a DNA fragment, containing the phage lambda pR promoter and the pM-promoted cI857 allele of the lambda repressor gene, in plasmid R1 upstream of the replication control genes, cloning vectors have been constructed which are present in one copy per chromosome at temperatures below 37 degrees C, and which display uncontrolled replication at 42 degrees C. Derivatives have been made which carry the R1 par region, stabilizing the plasmid at low temperature when grown in the absence of selection pressure. Cells harbouring these plasmids stop growing after 1-2 h incubation at 42 degrees C, and at this time 50% of the total DNA in the cells is plasmid DNA corresponding to more than 1000 plasmid molecules per cell. Concomitant with plasmid amplification at the high temperature, synthesis of plasmid-coded gene products is amplified, and these vectors can therefore be utilized for obtaining greatly enhanced yields of gene products that may be detrimental to the host cell when present in large amounts.     

Mutations in the bacteriophage lambda pL/oL region that spontaneously occur in plasmid pRPZ126

In a previous study (Chen and Porter, 1988), we isolated spontaneous mutations in a test plasmid that had occurred under non-selective conditions and assigned them to 1 of 6 different categories or groups. The test plasmid, pRPZ126, is a pBR322 derivative containing the bacteriophage lambda immunity region with the cI857 allele so that plasmid-containing cells shifted to 42 degrees C survive only if the expression of the lambda kil gene is prevented by mutation. 75% of the total spontaneous mutations obtained fall into two of these groups where there is no readily detectable change in plasmid size. The two groups differ in that the plasmids from the group 4 mutations are missing a specific HincII site while the plasmids from the group 5 mutations had no detectable plasmid change whatsoever. In this study, we randomly selected ten group 4 mutants and ten group 5 mutants and sequenced the lambda pL/oL region of the mutant plasmid. Of the ten group 4 mutants (HincII site missing), five involved a 24- or 44-basepair deletion in the pL/oL region of the plasmid. The other five group 4 mutants and four of the ten group 5 mutants were A-T to G-C transitions in the pL/oL region. The remaining six group 5 mutants did not demonstrate any sequence change in the pL/oL region of the plasmids. 8 out of 9 of these transition mutations occurred next to the 3' end of 3 different 5'-PyGGNPuNTG-3' sequences in the lambda operator region, and this same sequence is found adjacent to the A-T to G-C transition hotspot in the lac operator region (Schaaper et al., 1986). The 9th mutation, where the A-T to G-C transition occurred one basepair away from the lambda operator, was adjacent to a very similar sequence.     

A broad-host-range expression vector based on the pL promoter of coliphage lambda: regulated synthesis of human interleukin 2 in Erwinia and Serratia species.

We report the construction of a broad-host-range expression vector based on an RSF1010-derived replicon. The vector carries the strong leftward promoter (pL) of coliphage lambda as well as the cI857 allele, which codes for a thermolabile repressor protein. The coding region of mature human interleukin 2, which is preceded by the ner ribosome binding site of phage Mu, was cloned downstream from the pL promoter. The plasmid was introduced into Erwinia and Serratia species by means of mobilization. Heat-inducible synthesis of interleukin 2 protein was obtained, showing that the pL promoter is functional in these genera. As in Escherichia coli, the bulk of the overproduced protein was present in an insoluble form.     

Temperature-inducible amber suppressor: construction of plasmids containing the Escherichia coli serU- (supD-) gene under control of the bacteriophage lambda pL promoter.

An Escherichia coli DNA fragment containing the structural gene serU132 for the nonsense suppressor tRNASer2am was identified and purified by being cloned into a plasmid vector. Information obtained from DNA sequence analysis was used to select a serU132 fragment for insertion downstream from the bacteriophage lambda pL promoter in two pBR322-lambda derivatives. In nonsense mutant strains bearing the resulting serU132 hybrid plasmids, the presence of the lambda cI857 repressor gene carried on the same plasmid or in a prophage genome permits thermal regulation of suppressor synthesis.     

Identification in vivo of promoter activity in the left site of the att region of bacteriophage lambda DNA

The promoter-probing vector (pSK plasmid) was explored for cloning of the fragments from lambda cI857 and lambda b2 DNAs containing different regions of the att site. We have constructed all-tet fusions where the fusions are: 1) HindIII/BamHI-491 base pairs (b. p.) fragment of lambda cI857 DNA containing POP' site (plasmid pSK-PP'); 2) AluI-242 b. p. fragment of lambda cI857 DNA containing the left arm of the POP' site (plasmid pSK-P); 3) AluI-242 b. p. fragment of lambda cI857 DNA with opposite orientation (plasmid pSK-P); 4) EcoRI/BamHI-750 b. p. fragment of lambda b2 DNA containing the right arm of the POP' site (plasmid pSK-P'). These fusions permit us to analyse the effect of various pieces of the attachment site on the expression tet gene as the result of reparation of this gene promoter. We find that expression of tet (tetracycline resistant phenotype) takes place in the pSK-PP' and pSK-P but not in the pSK-P' and pSK-P. These facts permit us to conclude that the left arm of the att site contains a rightward promoter functioning in vivo. We postulate that this promoter activity might correspond to the promoter patt, which was described in previous experiments in vitro.