Construction of a novel promoter-probe vector and its application for screening strong promoter for Brevibacterium flavum metabolic engineering

Brevibacterium flavum is an important microorganism for the production of amino acids in industrial fermentation. Knowledge of promoters in B. flavum is essential for efficient modulation of gene expression in metabolic engineering. Here we have constructed a novel E. coli-B. flavum promoter-probe vector pDXW-11. The pDXW-11 habors an oriE for replication in E. coli, genes dso and sso for replication in B. flavum, a kan gene used as selected marker, a multiple cloning sites preceded by a rrnBT1T2 terminator and sequentially followed by stop codons, an SD sequence and a cat reporter gene. Using pDXW-11, activities of several promoters were evaluated in B. flavum. A strong promoter, the tac-M promoter, was designed. The tac-M promoter would be very useful for metabolic engineering research in B. flavum.     

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     

pUC12-STOP: An expression vector with portable translation stop signals

Summary A DNA linker with TAA translational stop codons in all three reading frames was inserted into the polylinker region of pUC12. The new plasmid pUC12-STOP is useful for the expression of DNA in cases where defined translational stops are desired. The STOP linker is flanked by unique restriction sites and thus can be excised as portable STOP linker fragments. The STOP linker was used to express in Escherichia coli a truncated form of the Herpes simplex virus type 1 glycoprotein D antigen.     

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     

An Extended RNA Code and its Relationship to the Standard Genetic Code: An Algebraic and Geometrical Approach

An algebraic and geometrical approach is used to describe the primaeval RNA code and a proposed Extended RNA code. The former consists of all codons of the type RNY, where R means purines, Y pyrimidines, and N any of them. The latter comprises the 16 codons of the type RNY plus codons obtained by considering the RNA code but in the second (NYR type), and the third, (YRN type) reading frames. In each of these reading frames, there are 16 triplets that altogether complete a set of 48 triplets, which specify 17 out of the 20 amino acids, including AUG, the start codon, and the three known stop codons. The other 16 codons, do not pertain to the Extended RNA code and, constitute the union of the triplets YYY and RRR that we define as the RNA-less code. The codons in each of the three subsets of the Extended RNA code are represented by a four-dimensional hypercube and the set of codons of the RNA-less code is portrayed as a four-dimensional hyperprism. Remarkably, the union of these four symmetrical pairwise disjoint sets comprises precisely the already known six-dimensional hypercube of the Standard Genetic Code (SGC) of 64 triplets. These results suggest a plausible evolutionary path from which the primaeval RNA code could have originated the SGC, via the Extended RNA code plus the RNA-less code. We argue that the life forms that probably obeyed the Extended RNA code were intermediate between the ribo-organisms of the RNA World and the last common ancestor (LCA) of the Prokaryotes, Archaea, and Eucarya, that is, the cenancestor. A general encoding function, E, which maps each codon to its corresponding amino acid or the stop signal is also derived. In 45 out of the 64 cases, this function takes the form of a linear transformation F, which projects the whole six-dimensional hypercube onto a four-dimensional hyperface conformed by all triplets that end in cytosine. In the remaining 19 cases the function E adopts the form of an affine transformation, i.e., the composition of F with a particular translation. Graphical representations of the four local encoding functions and E, are illustrated and discussed. For every amino acid and for the stop signal, a single triplet, among those that specify it, is selected as a canonical representative. From this mapping a graphical representation of the 20 amino acids and the stop signal is also derived. We conclude that the general encoding function E represents the SGC itself.     

Evolutionary Lability of Context-Dependent Codon Bias in Bacteria

In bacteria, synonymous codon usage can be considerably affected by base composition at neighboring sites. Such context-dependent biases may be caused by either selection against specific nucleotide motifs or context-dependent mutation biases. Here we consider the evolutionary conservation of context-dependent codon bias across 11 completely sequenced bacterial genomes. In particular, we focus on two contextual biases previously identified in Escherichia coli; the avoidance of out-of-frame stop codons and AGG motifs. By identifying homologues of E. coli genes, we also investigate the effect of gene expression level in Haemophilus influenzae and Mycoplasma genitalium. We find that while context-dependent codon biases are widespread in bacteria, few are conserved across all species considered. Avoidance of out-of-frame stop codons does not apply to all stop codons or amino acids in E. coli, does not hold for different species, does not increase with gene expression level, and is not relaxed in Mycoplasma spp., in which the canonical stop codon, TGA, is recognized as tryptophan. Avoidance of AGG motifs shows some evolutionary conservation and increases with gene expression level in E. coli, suggestive of the action of selection, but the cause of the bias differs between species. These results demonstrate that strong context-dependent forces, both selective and mutational, operate on synonymous codon usage but that these differ considerably between genomes. Received: 6 May 1999 / Accepted: 29 October 1999     

Sequence and promoter analysis of the highly expressed TEF gene of the filamentous fungus Ashbya gossypii

Ashbya gossypii carries only a single gene (TEF) coding for the abundant translation elongation factor 1. Cloning and sequencing of this gene and deletion analysis of the promoter region revealed an extremely high degree of similarity with the well studied TEF genes of the yeast Saccharomyces cerevisiae including promoter upstream activation sequence (UAS) elements. The open reading frames in both species are 458 codons long and show 88.6% identity at the DNA level and 93.7% identity at the protein level. A short DNA segment in the promoter, between nucleotides -268 and -213 upstream of the ATG start codon, is essential for high-level expression of the A. gossypii TEF gene. It carries two sequences, GCCCATACAT and ATCCATACAT, with high homology to the UAS_rpg sequence of S. cerevisiae, which is an essential promoter element in genes coding for highly expressed components of the translational apparatus. UAS_rpg sequences are binding sites for the S. cerevisiae protein TUF, also called RAP1 or GRF1. In gel retardation with A. gossypii protein extracts we demonstrated specific protein binding to the short TEF promoter segment carrying the UAS_rpg homologous sequences.     

Epitope mapping of recombinant antigens by transposon mutagenesis

We describe a method for generating a plasmid library expressing random truncations of a recombinant protein and for epitope mapping by screening the library with monoclonal antibodies. The key step is the random introduction of the transposon, Tn1000, which carries stop codons in all three reading frames, into a bacterial expression plasmid by using a simple bacterial mating procedure. Antibody-positive clones are then selected and the point of protein truncation is determined by sequencing the plasmid DNA at the point of transposon insertion. One advantage of the method is that no subcloning or in vitro manipulation of DNA is necessary.     

Chemically-Synthesized Gene Encoding Modified Human Superoxpde Dismutase: Its Construction,Expression and Properties of the Product

The gene encoding modified human superoxide dismutax (h-SOD) with 153 amino acid residues was constructed by chemical synthesis using the phosphoramidite method. The gene was designed so as to use bacterial codons for expression in prokaryotes and to introduce several unique restriction sites for further mutagenesis by the cassette exchange method. The distance between Shine-Dalgarno sequence and initiation codon was adjusted to maximum expression by using synthesized oligonucleotide. In addition, Cys 6 of h-SOD was changed to Ala to improve instability of native h-SOD.

Synthesized structural gene of h-SOD was expressed in E. coli after induction of isopropyl β-D-thiogalactoside by inserting the gene into the expression vector pKK223–3 having tac promoter. The gene that has 10 base pairs between Shine-Dalgarno sequence and initiation codøn showed the most efficient expression. The gene produced three active SOD isomers as revealed by chromatofocusing.

The main isomer was purified to homogeneity and characterized. The h-SOD-Ala⁶ showed similar properties to those of native h-SOD with respect to molecular weight, subunit structure, absorption spectrum. but the modified SOD was more resistant to heat denaturation than was native h-SOD; half-denaturing temperature was shifted by 10°C. Thus. the exchange of Cys 6 to Ala of h-SOD increased a stability of the enzyme.     

A vector, pSHT, for the expression and secretion of protein domains in mammalian cells.

A phagemid (pSHT) containing the pUC and M13 ori sequences was constructed to facilitate the expression of partial cDNAs or of sequences encoding mammalian membrane- and secretory-protein domains. It provides a start codon and signal sequence flanked upstream by the simian virus 40 and bacteriophage T7 promoters and downstream by cloning sites, stop codons in all three frames, splicing and polyadenylation signals.     

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.     

Tandem Stop Codons in Ciliates That Reassign Stop Codons

Tandem stop codons are extra stop codons hypothesized to be present downstream of genes to act as a backup in case of read-through of the real stop codon. Although seemingly absent from Escherichia coli, recent studies have confirmed the presence of such codons in yeast. In this paper we will analyze the genomes of two ciliate species—Paramecium tetraurelia and Tetrahymena thermophila—that reassign the stop codons TAA and TAG to glutamine, for the presence of tandem stop codons. We show that there are more tandem stop codons downstream of both Paramecium and Tetrahymena genes than expected by chance given the base composition of the downstream regions. This excess of tandem stop codons is larger in Tetrahymena and Paramecium than in yeast. We propose that this might be caused by a higher frequency of stop codon read-through in these species than in yeast, possibly because of a leaky termination machinery resulting from stop codon reassignment.     

Transactivation of a target gene using a suppressor tRNA in transgenic tobacco plants

The abundance of tRNAs, together with their central role in translation, has generated considerable interest in the use of tRNA genes for biotechnological applications. One such application is the use of suppressor tRNAs to transactivate target genes containing premature stop codons. Previous work has shown that such systems can work in transient expression experiments in plant protoplasts; here these experiments are extended to show that suppression of stop codons can occur in whole plants. Transgenic tobacco plants homozygous for a modified tRNA^Leu gene expressing a strong amber suppressor tRNA, and plants carrying a β-glucuronidase (gus) gene inactivated by a premature amber stop codon have been obtained. When the two types of plants are crossed, many of the F₁ hybrids show significant GUS activity. The GUS activity is dependent on the presence of both the suppressor tRNA gene and the gus gene. Tobacco plants carrying the suppressor tRNA gene are phenotypically normal, fertile and the gene shows normal Mendelian inheritance. The potential applications of such a system are discussed.     

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.     

The striking effects of spacer and terminator sequences on the synthesis of porcine growth hormone inEscherichia coli

Summary Two types of expression vectors containing theP _tac orP _L promoters, synthetic ribosomalbinding sequences (RBS), and a transciptional terminator (rrnBT₁T₂) were constructed for the production of porcine growth hormone (pGH) inEscherichia coli. The results demonstrated that the nucleotide sequence between the RBS and the start codon, ATG, was critical for the yields of pGH. The rrnBT₁T₂ terminator was essential for the efficient expression ofpGH in theP _tac -driven vectors, but reduced the synthesis of pGH in theP _L -vectors. A leaky repression was observed in the JM103 cells containing theP _tac -plasmids.     

Construction of new vectors for cloning of promoters

Vectors for cloning promoter-DNA fragments were derived from plasmid pBR313 (Bolivar et al., 1977). These have several unique restriction sites and carry the trpA gene from Escherichia coli as a selective marker. The selection is based on an enhancement of the growth rate of those bacteria in which the expression of trpA is directed by the cloned promoter. The expression of trpA can be determined quantitatively, independently of the copy number of the vector, and should reflect the apparent strength of the promoter, since the DNA segment located before trpA contains translational stop signals in all three reading frames.     

Construction of recombinant K88 DNA with Ptac promoter

The gene encoding K88ab was localized on the 11.6 kbHindIII-HindIII fragment of 74 kb plasmid DNA ofE. coli 7301. The smallest recombinant DNA producing the K88ab antigen was obtained by excision of the 5.15 kbEcoRI-EcoRI fragment from recombinant DNA composed of the 11.6 kb K88ab fragment in the pBR322 vectro. The size of the smallest fragment was 6.5 kb. Expression of the K88ab antigen was controlled by the P1 promoter of the pBR322 vector. Substitution of promoter P_tac for promoter P1 made it possible to achieve expression of the K88ab antigen byE. coli MT. Substitution of promoter P_L for promoter P1 failed to achieve expression of the K88 ab antigen in the recipient strains used.