Evaluation of promoters for gene expression in polyhydroxyalkanoate-producing Cupriavidus necator H16

Five kinds of promoters were evaluated as tools for regulated gene expression in the PHA-producing bacterium Cupriavidus necator. Several broad-host-range expression vectors were constructed by which expression of a reporter gene gfp was controlled by P _lac , P _tac , or P _BAD derived from Escherichia coli, or promoter regions of phaC1 (P _phaC ) or phaP1 (P _phaP ) derived from C. necator. Then, the gfp-expression profiles were determined in C. necator strains harboring the constructed vectors when the cells were grown on fructose or soybean oil. P _lac , P _tac , P _phaC , and P _phaP mediated constitutive gene expression, among which P _tac was the strongest promoter. lacI-P _tac was not thoroughly functional even after addition of isopropyl-β-d-thiogalactopyranoside (IPTG), probably due to inability of C. necator to uptake IPTG. Gene expression by araC-P _BAD could be regulated by varying l-arabinose concentration in the medium, although P(3HB) production rate was slightly decreased in the recombinant. phaR-P _phaP exhibited an expression profile tightly coupled with P(3HB) accumulation, suggesting application of the vector harboring phaR-P _phaP for gene expression specific at the PHA-biosynthesis phase. The properties of these promoters were expected to be useful for effective engineering of PHA biosynthesis in C. necator.     

Temperature-regulated expression of the tac/lacI system for overproduction of a fungal xylanase in Escherichia coli

 Temperature-regulated expression of recombinant proteins in the tac promoter (P_tac) system was investigated. Expression levels of fungal xylanase and cellulase from N. patriciarum in E. coli strains containing the natural lacI gene under the control of the P_tac markedly increased with increasing cultivation temperature in the absence of a chemical inducer. The specific activities (units per milligram protein of crude enzyme) of the fungal xylanase and cellulase produced from recombinant E. coli strain pop2136 grown at 42°C were about 4.5 times higher than those of the cells grown at 23°C and were even slightly higher when compared with cells grown in the presence of the inducer isopropyl β-D-thiogalactopyranoside. The xylanase expression level in the temperature-regulated P_tac system was about 35% of total cellular protein. However, this system can not be applied to E. coli strains containing lacI ^q, which confers over production of the lac repressor, for high-level expression of recombinant proteins. In comparison with the λP_L system, the P_tac-based xylanase plasmid in E. coli pop2136 gave a considerably higher specific activity of the xylanase than did the best λP_L-based construct using the same thermal induction procedure. The high-level expression of the xylanase using the temperature-regulated P_tac system was also obtained in 10-litre fermentation studies using a fed-batch process. These results unambiguously demonstrated that the temperature-modulated P_tac system can be used for overproduction of some non-toxic recombinant proteins. Received: 27 June 1995/Received revision: 13 September 1995/Accepted: 30 September 1995     

Preliminary Study on High-level Expression of Tandem-Arranged Tachyplesin-Encoding Gene in Bacillus subtilis Wb800 and its Antibacterial Activity

To produce tachyplesin, an antimicrobial peptide, by a stable and efficient gene engineering approach, cDNAs containing single tachyplesin gene sequence (tac)¹ and tandem repeat of tachyplesin gene sequence (tac2) were respectively developed by annealing two synthesized complementary single-stranded DNAs and constructed into pSBPTQ shuttle vector under the control of the SacB.p.s promoter. The vectors containing the target gene sequence were then transformed into Bacillus subtilis WB800, respectively. Both expression of tac and tac2 were induced by 2% sucrose. The fermentation supernatant was purified by regenerated cellulose membrane tubing (MWCO 2000) and the secreted TAC² and TAC2 were about 5 and 10 mg/l of supernatant, respectively. The antimicrobial activities of TAC and TAC2 were measured by the size of bacteriostatic circle of the fermentation supernatants against Escherichia coli K88. Ultrastructural alteration of E. coli K88 and Salmonella typhimurium was observed under scanning electron microscope and transmission electron microscopy. The results showed that in comparison with TAC, TAC2 was expressed at a higher level and also indicating strong antimicrobial activity both in vitro and in vivo. ¹ tac is tachyplesin gene; tac2 is a tandem repeat tachyplesin gene.²TAC is the expression product of tac; TAC2 is the expression product of tac2.     

pHG276: A multiple cloning site pBR322 copy number vector expressing a functional lacα peptide from the bacteriophage lambda PR promoter

The bacteriophage lambda early promoter P_R has been used to direct the synthesis of lacα in a plasmid containing the multiple cloning site of pUC8. The copy number of the plasmid is controlled by the rop(rom) gene and the plasmid incorporates the cI⁸⁵⁷ gene for temperature regulation of lacα expression. Isolation of recombinant derivatives with DNA inserts in the multiple cloning region can be identified by insertional inactivation of lacα and consequently, a Lac⁻ phenotype in a host carrying the M15 deletion of lac. The potential of pHG276 as a fully regulated expression vector is examined.     

Inducible protein expression in <Emphasis Type="Italic">Drosophila</Emphasis> Schneider 2 cells using the <Emphasis Type="Italic">lac</Emphasis> operator–repressor system

Schneider line 2 cells, derived from Drosophila melanogaster, can be used as a highly versatile gene expression system. Two powerful promoters derived from the actin5C (Ac5) and metallothionein (Mtn) genes are available. The Mtn promoter can be used for the inducible expression of heterologous proteins unsuitable for constitutive expression. However, to circumvent using CuSO₄ or CdCl₂ as inducers of the Mtn promoter, we created a modified Ac5 promoter, Ac5LacO, in which two short lac operator sequences are embedded. Expression from the Ac5LacO promoter was regulated with co-expression of the lac repressor and IPTG. More than 25-fold induction of firefly luciferase expression was achieved in transient transfection experiments. Furthermore, we demonstrated that the lac operator–repressor regulatory system functioned in chromosomally integrated cell lines.     

Regulated expression systems for the development of whole-cell biocatalysts expressing oxidative enzymes in a sequential manner

This work reports the preparation of two recombinant strains each containing two enzymatic activities mutually expressed through regulated systems for production of functionalized epoxides in one-pot reactions. One strain was Pseudomonas putida PaW340, containing the gene coding for styrene monooxygenase (SMO) from Pseudomonas fluorescens ST under the auto-inducing Ptou promoter and the TouR regulator of Pseudomonas sp. OX1 and the gene coding for naphthalene dihydrodiol dehydrogenase (NDDH) from P. fluorescens N3 under the Ptac promoter inducible by IPTG. The second strain was Escherichia coli JM109, in which the expression of SMO was under the control of the Pnah promoter and the NahR regulator of P. fluorescens N3 inducible by salicylate, while the gene expressing NDDH was under the control of the Plac promoter inducible by IPTG. SMO and NDDH activities were tested in bioconversion experiments using cinnamyl alcohol as reference substrate. The application that we selected is one example of the sequential use of the two enzymatic activities which require a temporal control of the expression of both genes.     

Tn5 insertion specificity is not influenced by IS50 end sequences in target DNA.

Summary The bacterial transposon Tn5 inserts into dozens of sites in a gene, some of which are used preferentially (hotspots). Features of certain sites and precedents provided by several other transposons had suggested that sequences in target DNA corresponding to the ends of Tn5 or of its component IS50 elements might facilitate transposition to these sites. We tested this possibility using derivatives of plasmid pBR322 carrying IS50 I or O end sequences. Tn5 inserted frequently into an IS50 I end at the major hotspot in pBR322, but not into either an I end or an O end 230 by away from this hotspot. Adenine (dam) methylation at GATC sequences in the I end segment interferes with its use as the end of a transposon, but a dam ^– mutation did not affect Tn5 insertion relative to an I end sequence in target DNA. These results support models in which the ability of Tn5 to find its preferred sites depends on several features of DNA sequence and conformation, and in which target selection is distinct from recognition of the element ends during transposition.     

Evidence that the geneuvrB is indispensable for a polymerase I deficient strain ofEscherichia coli K-12

Summary The gene coding for bacteriophage Lambda repressor (cI gene) has been fused to the lac operon of Escherichia coli. In some of the fusions Lambda repressor synthesis can be controlled by the lac operator and promoter. Upon induction of the lac operon the amount of Lambda repressor is increased by a factor of 7 over that found in a single lysogen. In combination with the polarity suppressor suA the induction factor rises to 20. Transducing phages of one fusion were constructed. After thermal induction of this phage the final level of Lambda repressor was enhanced by a factor of 150.Abbreviations xgal 5-bromo-4-chloro-3-indolyl--D-galactoside - IPTG isopropyl-thio--D-galactoside     

Characterization of aStaphylococcus aureusTransposon, Tn5405,Located within Tn5404and Carrying the Aminoglycoside Resistance Genes,aphA-3andaadE

A new staphylococcal composite transposon, designated Tn5405,carrying the genesaphA-3andaadE,which encode resistance to aminoglycosides, was partially characterized. The transposon is 12 kb long and is flanked by inverted repeated sequences displaying the characteristic features of an insertion sequence, named IS1182.This insertion sequence is 1864 bp long and has 23/33-bp imperfect inverted repeats at its ends. One of the IS1182copies delimiting Tn5405contains a copy of IS1181flanked by 8-bp direct repeats. Tn5405was found in the chromosome of MRSA clinical isolate BM3121, within a Tn552-related transposon, Tn5404.Tn5404was previously characterized following its transposition onto a β-lactamase plasmid harbored by BM3121. Two forms of the recombinant β-lactamase-encoding plasmid generated by the inversion of Tn5405within Tn5404were detected. IS1182was not detected in the DNA of 4 of the 17 tested MRSA isolates containingaphA-3and resistant to streptomycin. Thus,aphA-3andaadEgenes are not disseminated only by Tn5405or related transposons delimited by IS1182.     

The pilA gene of Xanthomonas campestris pv. citri is required for infection by the filamentous phage cf

 Host factors that are important for infection of Xanthomonas campestris pv. citri by the filamentous bacteriophage cf were investigated by transposon mutagenesis with Tn5tac1. A mutant, XT501, that was resistant to cf infection was recovered, showing that the gene inactivated by the transposon is required for infection by the phage but not for cf replication or assembly. A 1.7-kb SacI-ApaI DNA fragment from XT501 containing the bacterial DNA flanking one end of the transposon was cloned and shown to be required for cf infection. Nucleotide sequence analysis of the 1.7-kb fragment reveals the presence of an ORF that encodes a protein of 146 amino acids. This protein shows 42% identity to the type 4 prepilin encoded by the pilA genes of other bacteria. The pilA gene of X. campestris pv. citri is thus essential for infection by the bacteriophage cf. Received: 30 November 1998 / Accepted: 21 April 1999     

Tuning the Expression Level of a Gene Located on a Bacterial Chromosome

A new method of constructing a set of bacterial cell clones varying in the strength of a promoter upstream of the gene of interest was developed with the use of Escherichia coli MG1655 and lacZ as a reporter. The gist of it lies in constructing a set of DNA fragments with tac-like promoters by means of PCR with the consensus promoter P _tac and primers ensuring randomization of the four central nucleotides in the ?35 region. DNA fragments containing the tac-like promoters and a selective marker (Cm ^R) were used to replace lacI and the regulatory region of the lactose operon in E. coli MG1655. Direct LacZ activity assays with independent integrant clones revealed 14 new promoters (out of 4⁴ = 256 possible variants), whose strength varied by two orders of magnitude: LacZ activity in the corresponding strains gradually varied from 10² Miller units with the weakest promoter to 10⁴ Miller units with consensus P _tac Sequencing of the modified promoters showed that randomization of three positions in the ?35 region is sufficient for generating a representative promoter library, which reduces the number of possible variants from 256 to 64. The method of constructing a set of clones varying in expression of the gene or operon of interest is promising for modern metabolic engineering.     

Promoter engineering to optimize recombinant periplasmic Fab′ fragment production in Escherichia coli

Fab’ fragments have become an established class of biotherapeutic over the last two decades. Likewise, developments in synthetic biology are providing ever more powerful techniques for designing bacterial genes, gene networks and entire genomes that can be used to improve industrial performance of cells used for production of biotherapeutics. We have previously observed significant leakage of an exogenous therapeutic Fab’ fragment into the growth medium during high cell density cultivation of an Escherichia coli production strain. In this study we sought to apply a promoter engineering strategy to address the issue of Fab’ fragment leakage and its consequent bioprocess challenges. We used site directed mutagenesis to convert the P_tac promoter, present in the plasmid, pTTOD‐A33 Fab’, to a P_tic promoter which has been shown by others to direct expression at a 35% reduced rate compared to P_tac. We characterized the resultant production trains in which either P_tic or P_tac promoters direct Fab’ fragment expression. The P_tic promoter strain showed a 25?30% reduction in Fab’ expression relative to the original P_tac strain. Reduced Fab’ leakage and increased viability over the course of a fed‐batch fermentation were also observed for the P_tic promoter strain. We conclude that cell design steps such as the P_tac to P_tic promoter conversion reported here, can yield significant process benefit and understanding with respect to periplasmic Fab’ fragment production. It remains an open question as to whether the influence of transgene expression on periplasmic retention is mediated by global metabolic burden effects or periplasm overcapacity. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:840–847, 2016     

Transposon mutagenesis in Azospirillum brasilense: isolation of auxotrophic and Nif- mutants and molecular cloning of the mutagenized nifDNA

Summary We report the successful mutagenesis of Azospirillum brasilense 29710 Rif Sm with transposon Tn5. The narrow host-range plasmid pGS9 (p15A replicon), which possesses broad host-range N-type transfer genes, was used as the suicide vehicle to deliver Tn5 in Azospirillum. Out of 900 colonies tested, 0.8% proved to be auxotrophic. One mutant altered in indoleacetic acid (auxin) biosynthesis was isolated and, in addition, three mutants completely defective in nitrogen fixation (nif) were obtained. All the mutants tested contained a single copy of Tn5 integrated randomly in the genome. The Tn5-mutagenized EcoRI fragments were cloned from the three Nif^- mutants. Physical analysis of cloned DNA showed that Tn5 was present on a different EcoRI fragment in each case, ranging in size from 15–17 kb. The nitrogenase structural genes (nifHDK) in A. brasilense 29710 Rif Sm were localized on a 6.7 kb EcoRI fragment. We found that Tn5 is not inserted in the nifHDK genes in the Nif^- mutants reported here. Site-directed mutagenesis using the cloned, Tn5-containing DNA from mutant Nif27(pMS188), produced a large number of Nif^- transconjugants of the A. brasilense 29710 Rif wild-type strain, showing the linkage between Tn5 insertion and the Nif^- phenotype. This is the first time that transposon-mutagenized auxotrophic, Nif^- and other mutants have been available for genetic analysis in Azospirillum. This should greatly facilitate the cloning and mapping of genes involved in nitrogen fixation as well as in many other phenotypic characteristics of Azospirillum.