Synthetic promoter libraries for Corynebacterium glutamicum

The ability to modulate gene expression is an important genetic tool in systems biology and biotechnology. Here, we demonstrate that a previously published easy and fast PCR-based method for modulating gene expression in lactic acid bacteria is also applicable to Corynebacterium glutamicum. We constructed constitutive promoter libraries based on various combinations of a previously reported C. glutamicum -10 consensus sequence (gngnTA(c/t)aaTgg) and the Escherichia coli -35 consensus, either with or without an AT-rich region upstream. A promoter library based on consensus sequences frequently found in low-GC Gram-positive microorganisms was also included. The strongest promoters were found in the library with a -35 region and a C. glutamicum -10 consensus, and this library also represents the largest activity span. Using the alternative -10 consensus TATAAT, which can be found in many other prokaryotes, resulted in a weaker but still useful promoter library. The upstream AT-rich region did not appear to affect promoter strength in C. glutamicum. In addition to the constitutive promoters, a synthetic inducible promoter library, based on the E. coli lac-promoter, was constructed by randomizing the 17-bp spacer between -35 and -10 consensus sequences and the sequences surrounding these. The inducible promoter library was shown to result in β-galactosidase activities ranging from 284 to 1,665 Miller units when induced by IPTG, and the induction fold ranged from 7–59. We find that the synthetic promoter library (SPL) technology is convenient for modulating gene expression in C. glutamicum and should have many future applications, within basic research as well as for optimizing industrial production organisms.     

Mutational Analysis of the Mycobacteriophage BPs Promoter PR Reveals Context-Dependent Sequences for Mycobacterial Gene Expression

The P_R promoter of mycobacteriophage BPs directs early lytic gene expression and is under the control of the BPs repressor, gp33. Reporter gene fusions showed that P_R has modest activity in an extrachromosomal context but has activity that is barely detectable in an integrated context, even in the absence of its repressor. Mutational dissection of P_R showed that it uses a canonical −10 hexamer recognized by SigA, and mutants with mutations to the sequence 5′-TATAMT had the greatest activities. It does not contain a 5′-TGN-extended −10 sequence, although mutants with mutations creating an extended −10 sequence had substantially increased promoter activity. Mutations in the −35 hexamer also influenced promoter activity but were strongly context dependent, and similar substitutions in the −35 hexamer differentially affected promoter activity, depending on the −10 and extended −10 motifs. This warrants caution in the construction of synthetic promoters or the bioinformatic prediction of promoter activity. Combinations of mutations throughout P_R generated a calibrated series of promoters for expression of stably integrated recombinant genes in both Mycobacterium smegmatis and M. tuberculosis, with maximal promoter activity being more than 2-fold that of the strong hsp60 promoter.     

The sequence upstream of the −10 consensus sequence modulates the strength and induction time of stationary-phase promoters in Escherichia coli

We constructed a library of synthetic stationary-phase promoters for Escherichia coli. For designing the promoters, the known −10 consensus sequence, as well as the extended −10 region, and an A/T-rich region downstream of the −10 region were kept constant, whereas sequences from −37 to −14 were partially or completely randomised. For detection and selection of stationary-phase promoters, green fluorescent protein (GFP) with enhanced fluorescence was used. To establish the library, 33 promoters were selected, which differ in strength from 670 to more than 13,000 specific fluorescence units, indicating that the strength of promoters can be modulated by the sequence upstream of the −10 region. DNA sequencing revealed a preferential insertion of nucleotides depending on the position. By expressing the promoters in an rpoS-deficient strain, a special group of stationary-phase promoters was identified, which were expressed exclusively or preferentially by RNA polymerase holoenzyme Eσ^s. The DNA sequence of these promoters differed significantly in the region from −25 to −16. Furthermore, it was shown that the DNA curvature of the promoter region had no effect on promoter strength. The broad range of promoter activities make these promoters very suitable for fine-tuning of gene expression and for cost-effective large-scale applications in industrial bioprocesses.     

Libraries of synthetic stationary-phase and stress promoters as a tool for fine-tuning of expression of recombinant proteins in Escherichia coli

Due to their induction characteristics stationary-phase promoters have a great potential in biotechnological processes for the production of heterologous proteins on a large-scale. In order to broaden the utility of stationary-phase promoters in bacterial expression systems and to create novel promoters induced by metabolic conditions, a library of synthetic stationary-phase/stress promoters for Escherichia coli was constructed. For designing the promoters the known -10 consensus sequence as well as the extended -10 region and an A/T-rich region downstream of the -10 region were kept constant, while sequences from -37 to -14 were partially or completely randomized. For detection and selection of stationary-phase promoters GFP with enhanced fluorescence was used. The expression pattern of the GFP reporter system was compared with that of the LacZ reporter system. To screen and characterize colonies containing stationary-phase/stress promoters a bioinformatic approach was developed. In total, 33 promoters were selected which cover a broad range of promoter activities and induction times indicating that the strength of promoters can be modulated by partially randomizing the sequence upstream of the -10 region. The induction ratio of synthetic promoters at the transition from exponential to stationary-phase was from 4 to over 6000 and the induction time relative to the entrance into stationary-phase from -1.4 to 2.7 h. Ninety-one percentage of the promoters had no or only low background activity during exponential growth. The broad variability of the promoters offers good possibilities for fine-tuning of gene expression and for applications in industrial bioprocesses.     

Pr is a member of a restricted class of σ70-dependent promoters that lack a recognizable ?10 element

The Pr promoter is the first verified member of a class of bacterial σ⁷⁰-promoters that only possess a single match to consensus within its −10 element. In its native context, the activity of this promoter determines the ability of Pseudomonas putida CF600 to degrade phenolic compounds, which provides proof-of-principle for the significance of such promoters. Lack of identity within the −10 element leads to non-detection of Pr-like promoters by current search engines, because of their bias for detection of the −10 motif. Here, we report a mutagenesis analysis of Pr that reveals strict sequence requirements for its activity that includes an essential −15 element and preservation of non-consensus bases within its −35 and −10 elements. We found that highly similar promoters control plasmid- and chromosomally- encoded phenol degradative systems in various Pseudomonads. However, using a purpose-designed promoter-search algorithm and activity analysis of potential candidate promoters, no bona fide Pr-like promoter could be found in the entire genome of P. putida KT2440. Hence, Pr-like σ⁷⁰-promoters, which have the potential to be a widely distributed class of previously unrecognized promoters, are in fact highly restricted and remain in a class of their own.     

Highly Efficient Production of Laccase by the Basidiomycete Pycnoporus cinnabarinus

An efficient transformation and expression system was developed for the industrially relevant basidiomycete Pycnoporus cinnabarinus. This was used to transform a laccase-deficient monokaryotic strain with the homologous lac1 laccase gene placed under the regulation of its own promoter or that of the SC3 hydrophobin gene or the glyceraldehyde-3-phosphate dehydrogenase (GPD) gene of Schizophyllum commune. SC3-driven expression resulted in a maximal laccase activity of 107 nkat ml⁻¹ in liquid shaken cultures. This value was about 1.4 and 1.6 times higher in the cases of the GPD and lac1 promoters, respectively. lac1-driven expression strongly increased when 25 g of ethanol liter⁻¹ was added to the medium. Accordingly, laccase activity increased to 1,223 nkat ml⁻¹. These findings agree with the fact that ethanol induces laccase gene expression in some fungi. Remarkably, lac1 mRNA accumulation and laccase activity also strongly increased in the presence of 25 g of ethanol liter⁻¹ when lac1 was expressed behind the SC3 or GPD promoter. In the latter case, a maximal laccase activity of 1,393 nkat ml⁻¹ (i.e., 360 mg liter⁻¹) was obtained. Laccase production was further increased in transformants expressing lac1 behind its own promoter or that of GPD by growth in the presence of 40 g of ethanol liter⁻¹. In this case, maximal activities were 3,900 and 4,660 nkat ml⁻¹, respectively, corresponding to 1 and 1.2 g of laccase per liter and thus representing the highest laccase activities reported for recombinant fungal strains. These results suggest that P. cinnabarinus may be a host of choice for the production of other proteins as well.     

Functional Analysis and Randomization of the Nisin-Inducible Promoter for Tuning Gene Expression in Lactococcus lactis

Three putative promoter regions were identified preceding the nisZ gene in Lactococcus lactis HSM-22. To investigate their function in the control of nisZ biosynthesis, green fluorescence protein (GFP) was adopted as probe to determine activities of the three promoters. The results showed that PnisZ-0 containing two sets of the ?35 and ?10 regions exhibited the same maximum activity as promoter PnisZ-2 containing the putative promoter region near the start codon. However, the GFP expression level directed by PnisZ-0 was twofold higher than that found with PnisZ-2 under low-dose nisin, indicating that promoter PnisZ-1 distant from the start codon could be important in response to the inducer nisin. Then, Pnis-2 was randomized to develop functional promoters through the degenerate oligonucleotide approach in L. lactis. 35 inducible promoters and 14 constitutive promoters were obtained, covering 3–5 logs of expression levels in small increments of activity. Sequence analysis revealed that base changes in both consensus sequence and spacing sequence resulted in remarkable decrease of promoter activity, while the sequence outside ?35 and ?10 regions would influence the promoter function radically. The functional promoters were evaluated for the efficiency and stability to control β-galactosidase (Gal) expression in L. lactis. High correlation was obtained between the Gal activity and promoter strength, suggesting that promoters developed here have the potential for fine tuning gene expression in L. lactis.     

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.