Efficient expression of a promoter-controlled gene: Tandem promoters of lambda PR and PL functional in enteric bacteria

We describe an expression vector that functions in enteric bacteria. The vector contains the coliphage λ promoters P_R and P_L and entire P_R and P_L operators in tandem upstream from the multiple cloning sites containing the kanamycin-resistant gene. The vector also specifies a ribosome binding site and a thermolabile repressor, cI₈₅₇, and the P_RM promoter. These promoters as well as lacUV5 and trp promoters were inserted into the EcoRI site of pKO-1 plasmid so that they drove the expression of a reporter gene, galactokinase (galK). The P_RP_L promoter showed the highest efficiency of galK expression in the Escherichia coli strain K12ΔH1Δtrp; it was strong in Klebsiella aerogenes, and weak in Serratia marcescens and Citrobacter freundii.     

Engineering of a green‐light inducible gene expression system in Synechocystis sp. PCC6803

In order to construct a green‐light‐regulated gene expression system for cyanobacteria, we characterized a green‐light sensing system derived from Synechocystis sp. PCC6803, consisting of the green‐light sensing histidine kinase CcaS, the cognate response regulator CcaR, and the promoter of cpcG2 (P_cpcG2). CcaS and CcaR act as a genetic controller and activate gene expression from P_cpcG2 with green‐light illumination. The green‐light induction level of the native P_cpcG2 was investigated using GFPuv as a reporter gene inserted in a broad‐host‐range vector. A clear induction of protein expression from native P_cpcG2 under green‐light illumination was observed; however, the expression level was very low compared with P_trc, which was reported to act as a constitutive promoter in cyanobacteria. Therefore, a Shine‐Dalgarno‐like sequence derived from the cpcB gene was inserted in the 5′ untranslated region of the cpcG2 gene, and the expression level of CcaR was increased. Thus, constructed engineered green‐light sensing system resulted in about 40‐fold higher protein expression than with the wild‐type promoter with a high ON/OFF ratio under green‐light illumination. The engineered green‐light gene expression system would be a useful genetic tool for controlling gene expression in the emergent cyanobacterial bioprocesses.     

Evaluation of copper-inducible fungal laccase promoter in foreign gene expression in <Emphasis Type="Italic">Pichia pastoris</Emphasis>

The promoter region of copper-inducible laccase gene, LCC1, from Pycnoporus coccineus was explored in the heterologous expression of foreign protein in Pichia pastoris. The promoter region (P_PPLCC1) was isolated and used to replace the methanol-inducible AOXI promoter (P_AOX1) of pPICHOLI-2, an episomal expression vector for P. pastoris, to generate a new copper-inducible expression vector. The promoter activity of P_PPLCC1 was compared with those of P_AOX1 and P_CUP1, a copper-inducible promoter of a commercial vector pPICHOLI-C, using a laccase gene as a reporter gene in P. pastoris GS115. Reporter laccase activity of the culture broth reached 182 and 43 units/L for P_PPLCC1 and P_CUP1, respectively, after induction with 0.2 mM CuSO₄ at OD₆₀₀ = 1 and culture for 120 h at 15°C in complex medium containing 1% glucose. For P_AOX1 activity, yeast cells harboring P_AOX1-laccase plasmid were cultured for 120 h at 15°C in complex medium with intermittent feeding with 1% methanol every 12 h to avoid methanol toxicity. Laccase activity of culture broth was 124 units/L. Conclusively, P_PPLCC1 is a new copper-inducible promoter that shows superior performance in terms of efficiency of laccase production compared to commercial vectors. P_PPLCC1 is additionally superior to P_AOX1 since it does not require laborious feeding with a carbon source.     

A comprehensive set of plasmids for vanillate- and xylose-inducible gene expression in Caulobacter crescentus

Caulobacter crescentus is widely used as a powerful model system for the study of prokaryotic cell biology and development. Analysis of this organism is complicated by a limited selection of tools for genetic manipulation and inducible gene expression. This study reports the identification and functional characterization of a vanillate-regulated promoter (P_van) which meets all requirements for application as a multi-purpose expression system in Caulobacter, thus complementing the established xylose-inducible system (P_xyl). Furthermore, we introduce a newly constructed set of integrating and replicating shuttle vectors that considerably facilitate cell biological and physiological studies in Caulobacter. Based on different narrow and broad-host range replicons, they offer a wide choice of promoters, resistance genes, and fusion partners for the construction of fluorescently or affinity-tagged proteins. Since many of these constructs are also suitable for use in other bacteria, this work provides a comprehensive collection of tools that will enrich many areas of microbiological research.     

Conditional-Suicide Containment System for Bacteria Which Mineralize Aromatics

A model conditional-suicide system to control genetically engineered microorganisms able to degrade substituted benzoates is reported. The system is based on two elements. One element consists of a fusion between the promoter of the Pseudomonas putida TOL plasmid-encoded meta-cleavage pathway operon (P_m) and the lacI gene encoding Lac repressor plus xylS, coding for the positive regulator of P_m. The other element carries a fusion between the P_tac promoter and the gef gene, which encodes a killing function. In the presence of XylS effectors, LacI protein is synthesized, preventing the expression of the killing function. In the absence of effectors, expression of the P_tac::gef cassette is no longer prevented and a high rate of cell killing is observed. The substitution of XylS for XylSthr45, a mutant regulator with altered effector specificity and increased affinity for benzoates, allows the control of populations able to degrade a wider range of benzoates at micromolar substrate concentrations. Given the wide effector specificity of the key regulators, the wild-type and mutant XylS proteins, the system should allow the control of populations able to metabolize benzoate; methyl-, dimethyl-, chloro-, dichloro-, ethyl-, and methoxybenzoates; salicylate; and methyl- and chlorosalicylates. A small population of genetically engineered microorganisms became Gef resistant; however, the mechanism of such survival remains unknown.     

Identification and characterization of P GCW14 : a novel, strong constitutive promoter of Pichia pastoris

The available promoters in the Pichia pastoris expression platform are still limited. We selected and identified a novel strong constitutive promoter, P _GCW14 , and tested its promoter activity using enhanced green fluorescent protein (EGFP) as a reporter. Potential promoter regions of P _GCW14 were cloned upstream of the EGFP gene and promoter activity was analyzed by measuring fluorescence intensity. P _GCW14 exhibited significantly stronger promoter activity than the classic strong constitutive promoters P _TEF1 and P _GAP under various carbon sources, suggesting that P _GCW14 is a strong and constitutive promoter. Hence, P _GCW14 can be used as a promoter for high-level expression of heterologous proteins.     

In Vivo Programmed Gene Expression Based on Artificial Quorum Networks

The quorum sensing (QS) system, as a well-functioning population-dependent gene switch, has been widely applied in many gene circuits in synthetic biology. In our work, an efficient cell density-controlled expression system (QS) was established via engineering of the Vibrio fischeri luxI-luxR quorum sensing system. In order to achieve in vivo programmed gene expression, a synthetic binary regulation circuit (araQS) was constructed by assembling multiple genetic components, including the quorum quenching protein AiiA and the arabinose promoter P_araBAD, into the QS system. In vitro expression assays verified that the araQS system was initiated only in the absence of arabinose in the medium at a high cell density. In vivo expression assays confirmed that the araQS system presented an in vivo-triggered and cell density-dependent expression pattern. Furthermore, the araQS system was demonstrated to function well in different bacteria, indicating a wide range of bacterial hosts for use. To explore its potential applications in vivo, the araQS system was used to control the production of a heterologous protective antigen in an attenuated Edwardsiella tarda strain, which successfully evoked efficient immune protection in a fish model. This work suggested that the araQS system could program bacterial expression in vivo and might have potential uses, including, but not limited to, bacterial vector vaccines.     

Codon optimization,promoter and expression system selection that achieved high-level production of Yarrowia lipolytica lipase in Pichia pastoris

Lipase (EC 3.1.1.3) stands amongst the most important and promising biocatalysts for industrial applications. In this study, in order to realize a high-level expression of the Yarrowia lipolytica lipase gene in Pichia pastoris, we optimized the codon of LIP2 by de novo gene design and synthesis, which significantly improved the lipase expression when compared to the native lip2 gene. We also comparatively analyzed the effects of the promoter types (P_AOX1 and P_FLD1) and the Pichia expression systems, including the newly developed PichiaPink system, on lipase production and obtained the optimal recombinants. Bench-top scale fermentation studies indicated that the recombinant carrying the codon-optimized lipase gene syn-lip under the control of promoter P_AOX1 has a significantly higher lipase production capacity in the fermenter than other types of recombinants. After undergoing methanol inducible expression for 96 h, the wet cell weight of Pichia, the lipase activity and the protein content in the fermentation broth reached their highest values of 262 g/L, 38,500 U/mL and 2.82 g/L, respectively. This study has not only greatly facilitated the bioapplication of lipase in industrial fields but the strategies utilized, such as de novo gene design and synthesis, the comparative analysis among promoters and different generations of Pichia expression systems will also be useful as references for future work in this field.     

Novel Method for Genomic Promoter Shuffling by Using Recyclable Cassettes

Genetic elements of interest can be introduced into the Saccharomyces cerevisiae genome via homologous recombination. The current method is to link such an element to a selectable marker gene to be integrated into the target locus. However, the marker gene in this method cannot be reused, which limits repeated manipulation of the yeast genome. An alternative method is to utilize a counterselectable gene, such as URA3, with flanking tandem repeats. After integration, URA3 along with one copy of the repeat can be popped out via internal recombination, leaving behind one copy of the unwanted repeat. Here we describe a novel concept of genetic element shuffling in which the tandem repeats are made of the desired genetic element, so that after integration and popping out, only one copy of the element remains at the desired locus to function. As a proof of principle, we constructed three recyclable cassettes (P_PGK1-URA3-P_PGK1, P_GAL1-URA3-P_GAL1, and P_tetO7-URA3-P_tetO7) and integrated them upstream of an engineered chromosomal P_HIS3-mCherry-Myc locus. After promoter shuffling, the mCherry-Myc gene was regulated precisely as anticipated.     

Evaluation and screening of efficient promoters to improve astaxanthin production in Xanthophyllomyces dendrorhous

Astaxanthin is a valuable carotenoid that is widely used in the aquaculture, food, pharmaceutical, and cosmetic industries. Xanthophyllomyces dendrorhous is a carotenoid-synthesizing yeast strain that produces astaxanthin as its main pigment. Although metabolic engineering using gene manipulation is a valuable way to improve astaxanthin production, a gene expression system for X. dendrorhous has been poorly developed. In this study, three known promoters of X. dendrorhous, glycerol-3-phosphate dehydrogenase (gpd) promoter (Pgpd), glucose dehydrogenase (gdh) promoter (Pgdh), and actin (act) promoter (Pact), were evaluated for use in the overexpression of target proteins using green fluorescence protein (GFP) as an expression level indicator protein. The actin promoter, Pact, showed the highest expression level of GFP when compared with Pgpd and Pgdh. Additionally, to obtain new promoters for higher expression of target protein in X. dendrorhous, intracellular GFP intensity was evaluated for 13 candidate promoters. An alcohol dehydrogenase promoter, Padh4, showed more efficient expression of GFP rather than Pact. Overexpression of crtE gene encoding rate-limiting enzyme of carotenoid synthesis under the adh4 promoter yielded an increase in intracellular astaxanthin content of about 1.7-fold compared with the control strain. The promoters identified in this study must be useful for improving carotenoids production in X. dendrorhous.     

Isolation and functional characterization of a novel rice constitutive promoter

Key message

A novel rice constitutive promoter (P _OsCon1 ) was isolated. The molecular mechanism of the promoter activity was investigated. P _OsCon1 could be used as an alternative constitutive promoter for crop transgenic engineering.

Abstract

Monocot constitutive promoter is an important resource for crop transgenic engineering. In this report, we isolated a novel promoter, Oscon1 promoter (P _OsCon1 ), from the 5′ upstream region of a constitutively expressed rice gene OsDHAR1. In P _OsCon1 ::GUS transgenic rice, we showed that P _OsCon1 had a broad expression spectrum in all tested tissues. The expression of the promoter was further analyzed in comparison with the previously characterized strong constitutive promoters. P _OsCon1 exhibited comparable activity to OsCc1, OsAct1 or ZmUbi promoters in most tissues, and more active than 35S promoter in roots, seeds, and calli. Further quantitative assays indicated that P _OsCon1 activity was not affected by developmental stages or by environmental factors. Further, 5′-deletions analysis indicated that the distinct regions might contribute to the strong expression of P _OsCon1 in different tissues. Overall, our results suggest that P _OsCon1 is a novel constitutive promoter, which could potentially use in transgenic crop development.     

Construction of a Broad-Host-Range Tn7-Based Vector for Single-Copy PBAD-Controlled Gene Expression in Gram-Negative Bacteria

We describe a mini-Tn7-based broad-host-range expression cassette for arabinose-inducible gene expression from the P_BAD promoter. This delivery vector, pTJ1, can integrate a single copy of a gene into the chromosome of Gram-negative bacteria for diverse genetic applications, of which several are discussed, using Pseudomonas aeruginosa as the model host.     

Promotion, termination, and anti-termination in the rpsU-dnaG-rpoD macromolecular synthesis operon of E. coli K-12

Summary The regulatory regions for the rpsU-dnaG-rpoD macromolecular synthesis operon have been fused to a structural gene whose product is readily assayed (the Cm^r structural gene coding for chloramphenicol acetyl transferase, CAT). The promoters (P₁, P₂, P₃, P_a, P_b, P_hs) for the macromolecular synthesis operon have different strengths as shown by their relative abilities to drive expression of the CAT gene. Promoter occlusion by P₁ can be demonstrated within this operon. Regions 5kb upstream have a profound effect on operon gene expression. There is a thermoinducible promoter located within the dnaG structural gene. One of the macromolecular synthesis operon promoters is under lexA control. Although the operon structure allows coordinate expression of rpsU, dnaG and rpoD these additional features suggest that expression of individual genes can be independently regulated in response to altered growth conditions.Abbreviations Ap^r ampicillin resistance - CAT chloramphenicol acetyl transferase - Cm^r chloramphenicol resistance - kb kilobase pair - orf open reading frame - P promoter - T terminator - Tc^r tetracycline resistance     

New Vectors for Chromosomal Integration Enable High-Level Constitutive or Inducible Magnetosome Expression of Fusion Proteins in Magnetospirillum gryphiswaldense

The alphaproteobacterium Magnetospirillum gryphiswaldense biomineralizes magnetosomes, which consist of monocrystalline magnetite cores enveloped by a phospholipid bilayer containing specific proteins. Magnetosomes represent magnetic nanoparticles with unprecedented magnetic and physicochemical characteristics. These make them potentially useful in a number of biotechnological and biomedical applications. Further functionalization can be achieved by expression of foreign proteins via genetic fusion to magnetosome anchor peptides. However, the available genetic tool set for strong and controlled protein expression in magnetotactic bacteria is very limited. Here, we describe versatile vectors for either inducible or high-level constitutive expression of proteins in M. gryphiswaldense. The combination of an engineered native P_mamDC promoter with a codon-optimized egfp gene (Mag-egfp) resulted in an 8-fold increase in constitutive expression and in brighter fluorescence. We further demonstrate that the widely used P_tet promoter is functional and tunable in M. gryphiswaldense. Stable and uniform expression of the EGFP and β-glucuronidase (GusA) reporters was achieved by single-copy chromosomal insertion via Tn5-mediated transposition. In addition, gene duplication by Mag-EGFP–EGFP fusions to MamC resulted in further increased magnetosome expression and fluorescence. Between 80 and 210 (for single MamC–Mag-EGFP) and 200 and 520 (for MamC–Mag-EGFP–EGFP) GFP copies were estimated to be expressed per individual magnetosome particle.