Gene <Emphasis Type="Italic">yddG</Emphasis> of <Emphasis Type="Italic">Escherichia coli</Emphasis> encoding the putative exporter of aromatic amino acids: Constitutive transcription and dependence of the expression on the cell growth rate

Gene yddG of Escherichia coli encodes a protein of the inner membrane. Data obtained earlier demonstrated that under conditions of aromatic amino acids overproduction YddG promotes their export from E. coli cells. In this work, a method of primer extension was used to localize the P _yddG promoter, which corresponds to E. coli promoters recognized by RNA polymerase in complex with σ⁷⁰ or σ^S subunits. By constructing a gene of the hybrid protein YddG’-LacZ at the intrinsic site of gene yddG location in the E. coli chromosome and analyzing the activity of β-galactosidase in cells growing on laboratory media LB and M9, the constitutive type of yddG expression at a low level was demonstrated (the activity was about 3 to 4% of the LacZ level under induction of the lac operon in E. coli wild-type cells). The expression of yddG had a twofold increase under conditions of retarded cell growth upon the stress caused by the high NaCl content (0.6 M) or by the presence of phenylalanine excess quantities (>1 mM) in the culture medium.     

On the Mechanism of Action of <Emphasis Type="Italic">lac</Emphasis> Repressor

Chen et al. have proved conclusively that lac repressor and RNA polymerase bind independently to wild type lac DNA in vitro. To explain the lacp ^s mutation, which causes competitive binding between repressor and polymerase, they suggest that a new promoter site has been created near the lac operator.     

Improvement of desulfurizing activity of haloalkaliphilic <Emphasis Type="Italic">Thialkalivibrio versutus</Emphasis> SOB306 with the expression of <Emphasis Type="Italic">Vitreoscilla</Emphasis> hemoglobin gene

Objective

To construct efficient transformation and expression system and further improve desulfurizing activity of cells through expression of Vitreoscilla hemoglobin (VHb) in haloalkaliphilic Thialkalivibrio versutus SOB306.

Results

We transferred plasmids pKT230 and pBBR-sm^r into T. versutus SOB306 via a conjugation method. We identified four promoters from among several predicted promoters by scoring for streptomycin resistance, and finally selected tac and p3 based on the efficiency of expression of red fluorescent protein (RFP). Expression of RFP when regulated by tac was more than three times that of p3 in SOB306. Further, we expressed VHb under the control of tac promoter in SOB306. Expression of VHb was verified using CO-difference spectra. The results showed that VHb expression can boost sulfur metabolism, as evidenced by an increase of about 11.7 ± 1.8% in the average rate of thiosulfate removal in the presence of VHb.

Conclusion

A conjugation transfer and an expression system for Thialkalivibrio, has been developed for the first time and used for expression of VHb to improve desulfurizing activity.

     

A new method for the construction of translationally coupled operons in a bacterial chromosome

A new method for the construction of translationally coupled operons in a bacterial chromosome was developed on the basis of the recombineering approach. The method includes the in vitro construction of an artificial operon with an efficiently translated proximal cistron, its insertion into the Escherichia coli chromosome, the modification of the operon via Red-driven insertion of a special “Junction” with an excisable selective marker into the intercistronic region of the initial operon, and the excision of the marker. The Junction structure was designed and tested. The Junction consists of three components. The first component is the E. coli rplC-rplD intercistronic region and serves for placing the TAA codon of the proximal gene in the SD sequence (TAAGGAG) of rplD. The second component is the Cm ^R gene flanked by λattL/R sites in such a fashion that the residual λattB site after λInt/Xis-driven excision of the marker does not contain termination codons in frame with ATG of rplD. The third component is the E. coli trpE-trpD intercistronic region which is added so that TGA of trpE acts a termination codon of the new open reading frame (ORF), while the overlapping (TGATG) ATG of trpD is in the position of the initiation codon of the distal gene of the original operon. The general design of the Junction provides the conversion of the original two-cistron operon into a three-cistron operon with translationally coupled genes, where the coupling of the artificial ORF (rplD’-λattB-’trpE) with the proximal gene is due to the rplC-rplD intercistronic region and its coupling with the distal gene is due to trpE-trpD. The strategy was experimentally implemented to construct an artificial operon P_tac-aroG4-serA5, where the expression the distal serA5 gene was optimized owing to translational coupling in a three-cistron operon.     

Model-based reconstruction of synthetic promoter library in <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis>

Objective

To develop an efficient synthetic promoter library for fine-tuned expression of target genes in Corynebacterium glutamicum.

Results

A synthetic promoter library for C. glutamicum was developed based on conserved sequences of the ??10 and ??35 regions. The synthetic promoter library covered a wide range of strengths, ranging from 1 to 193% of the tac promoter. 68 promoters were selected and sequenced for correlation analysis between promoter sequence and strength with a statistical model. A new promoter library was further reconstructed with improved promoter strength and coverage based on the results of correlation analysis. Tandem promoter P70 was finally constructed with increased strength by 121% over the tac promoter. The promoter library developed in this study showed a great potential for applications in metabolic engineering and synthetic biology for the optimization of metabolic networks.

Conclusions

To the best of our knowledge, this is the first reconstruction of synthetic promoter library based on statistical analysis of C. glutamicum.

     

<Emphasis Type="Italic">Oceanobacillus gochujangensis</Emphasis> sp. nov., isolated from <Emphasis Type="Italic">gochujang</Emphasis> a traditional Korean fermented food

A Gram-stain-positive, polar flagella-containing, rod-shaped, obligate aerobic, endospore-forming bacterium, strain TK1655^T, was isolated from the traditional Korean food gochujang. The 16S rRNA sequence of strain TK1655^T was a member of the genus Oceanobacillus similar to that of the type strain of Oceanobacillus oncorhynchi subsp. incaldanensis DSM 16557^T (97.2%), O. oncorhynchi subsp. oncorhynchi JCM 12661^T (97.1%), O. locisalsi KCTC 13253^T (97.0%), and O. sojae JCM 15792^T (96.9%). Strain TK1655^T was oxidase and catalase positive. Colonies were circular, smooth, low convex, cream in colour, and measured about 0.5–1.0 mm in diameter. The range for growth was 20–40°C (optimal, 30°C), pH 6.0–10.0 (optimal, 7.0), and 2–16% (w/v) NaCl (optimal, 2%). Additionally, the cells contained meso-DAP, and the predominant isoprenoid quinone was MK-7. The complex polar lipids were consisted of diphosphatidylglycerol (DPG), phosphatidylglycerol (PG), phosphatidylcholine (PC). The major cellular fatty acid components were iso-C_15:0, anteiso-C_15:0, iso-C_16:0, and anteiso-C_17:0, and the DNA G+C content was 40.5%. DNA-DNA relatedness of our novel strain and reference strain O. locisalsi KCTC 13253^T, O. oncorhynchi subsp. incaldanensis DSM 16557^T, O. oncorhynchi subsp. oncorhynchi JCM 12661^T was 45.7, 43.8, and 41.9%. From the results of phenotypic, chemotaxonomic, and phylogenetic analyses of strain TK1655^T, we propose the novel species Oceanobacillus gochujangensis sp. nov. The type strain is TK1655^T (=KCCM 101304^T =KCTC 33014^T =CIP 110582^T =NBRC 109637^T).     

Evaluation of microbial globin promoters for oxygen-limited processes using <Emphasis Type="Italic">Escherichia coli</Emphasis>

Oxygen-responsive promoters can be useful for synthetic biology applications, however, information on their characteristics is still limited. Here, we characterized a group of heterologous microaerobic globin promoters in Escherichia coli. Globin promoters from Bacillus subtilis, Campylobacter jejuni, Deinococcus radiodurans, Streptomyces coelicolor, Salmonella typhi and Vitreoscilla stercoraria were used to express the FMN-binding fluorescent protein (FbFP), which is a non-oxygen dependent marker. FbFP fluorescence was monitored online in cultures at maximum oxygen transfer capacities (OTR_max) of 7 and 11 mmol L^?1 h^?1. Different FbFP fluorescence intensities were observed and the OTR_max affected the induction level and specific fluorescence emission rate (the product of the specific fluorescence intensity multiplied by the specific growth rate) of all promoters. The promoter from S. typhi displayed the highest fluorescence emission yields (the quotient of the fluorescence intensity divided by the scattered light intensity at every time-point) and rate, and together with the promoters from D. radiodurans and S. coelicolor, the highest induction ratios. These results show the potential of diverse heterologous globin promoters for oxygen-limited processes using E. coli.     

A method for simultaneous gene overexpression and inactivation in the <Emphasis Type="Italic">Corynebacterium glutamicum</Emphasis> genome

The gene integration method is an important tool to stably express desirable genes in bacteria. To avoid heavy workload and cost, we constructed a rapid and efficient method for genome modification. This method depended on a mobilizable plasmid, which contains a P _tac promoter, an introduced multiple cloning site (iMCS), and rrnBT1T2 terminator. Briefly, the mobilizable plasmid pK18-MBPMT with the P _tac-iMCS-rrnBT1T2 cartridge derived from pK18mobsacB was prepared to directly integrate hetero-/homologous DNA into the Corynebacterium glutamicum genome. Like our previous method, this method was based on insertional inactivation and double-crossover homologous recombination, which simultaneously achieved gene overexpression and inactivation in the genome without the use of genetic markers. Compared to the previous method, this protocol omitted the construction of a recombinant expression plasmid and clone of the target gene(s) cassette, which significantly decreased the workload, cost, and operational time. Using this method, the heterologous gene amy and the homologous gene lysC ^T311I were successfully integrated into the C. glutamicum genome at alaT and avtA loci, respectively. Moreover, the operation time of this method was shorter than that of the previous method, especially for repeated integration. This method, which is based on the mobilizable plasmid pK18-MBPMT, thus represents a potentially attractive protocol for the integration of genes in the course of genetic modification of C. glutamicum.     

Isolation of four rice seed-specific promoters and evaluation of endosperm activity

Cereal grains are major targets for genetically improving the nutritional value of food and for producing recombinant proteins. Strong and tissue-specific promoters are highly desired for effectively controlling expression in the seed or endosperm. In this study, we isolated four rice promoters from the 5′ upstream region of putative seed-specifically expressed genes: PROLAM26, RAL2, RAL4 and CAPIP. By generating transgenic rice plants carrying promoter-reporter constructs, we found these four promoters to be specifically expressed in seeds, with three having endosperm-specific or -preferential activity. The strength of each promoter in the endosperm was determined and compared to a constitutively expressed OsACTIN promoter and an endosperm-specifically expressed Glu4-B promoter in single-copy transgenic plants. The promoter of RAL2 exhibited relatively high activity, and the promoters of RAL4 and CAPIP exhibited activities comparable with those of OsACTIN and Glu4-B. In addition, monitoring activities in high-generation (T₃–T₄) homozygous progeny of single-copy plants revealed maintenance of expression for all four promoters, with no evidence of silencing. Taken together, our findings offer four stable rice seed-specific promoters of different strengths for endosperm expression.     

Comparative Analysis of Mono- and Bifunctional Chorismate Synthases in <Emphasis Type="Italic">Escherichia coli</Emphasis> Cells Capable and Incapable of Phenylalanine Production

The activity of chorismate synthase, the terminal enzyme of the common aromatic pathway, is absolutely dependent on reduced flavin mononucleotide. The bifunctional chorismate synthase of Saccharomyces cerevisiae (product of the ARO2 gene) can reduce flavin in a reaction that involves NADPH, in contrast to the monofunctional chorismate synthase of Escherichia coli (product of the _aro C gene). The latter enzyme does not have the capacity for flavin reduction, and its activity therefore depends on the flavin reductase function of the cell. Chemical synthesis of the structural part of the ARO2 gene that involved the substitution of rare E. coli codons was performed for an in vivo comparison of the two types of chorismate synthase. ARO2 expression was tested in the T7 system, and isogenic E. coli strains TG1Δ _aro CP_tac-ARO2 and TG1Δ _aro CP_tac- _aro C were obtained. Comparative analysis of proteins from the cell extracts of these strains and in silico assessment of hybrid RBS efficiency showed that the level of AroC protein synthesis in TG1Δ _aro CP_tac- _aro C was higher than the level of ARO2 synthesis in the TG1Δ _aro CP_tac-ARO2 cells. The introduction of Ptac-ARO2 and Ptac- _aro C modifications led to complete recovery of the growth of the aromatic auxotroph TG1Δ _aro C on minimal mineral medium supplemented with glucose and restored phenylalanine production in the E. coli strain DV1017Δ _aro C, which lacked chorismate synthase activity. The similar positive effects of P_tac- _aro C and P_tac-ARO2 on phenylalanine biosynthesis in the DV1017ΔtyrR strain, in which chorismate synthase played a “bottleneck” role, indicated the absence of a limiting effect of reduced flavin on monofunctional chorismate synthase overexpressed in E. coli cells.     

Antirestriction and antimodification activities of T7 Ocr: Effects of amino acid substitutions in the interface

The T7 antirestriction protein Ocr, encoded by 0.3 (ocr), specifically inhibits ATP-dependent type I restriction-modification systems. T7 0.3 (ocr) was cloned in pUC18. Ocr inhibited both restriction and modification activities of the type I restriction-modification system (EcoKI) in Escherichia coli K12. The Ocr F53D A57E mutant was obtained and proved to inhibit only restriction activity of EcoKI. The 0.3 (ocr) and Photorhabdus luminescens luxCDABE genes were cloned in pZ-series vectors with the P _ltetO-1 promoter, strongly controlled by the TetR repressor. The bioluminescence intensity and luciferase content varied up to 5000-fold in E. coli K12 MG1655Z1 tetR⁺ (pZE21-luxCDABE) cells, depending on the environmental concentration of the inductor anhydrotetracycline. The antirestriction activity of Ocr and Ocr F53D A57E was studied as a function of their concentration in the cell. The dissociation constant K _d, characterizing the binding with EcoKI, differed 1000-fold between Ocr and Ocr F53D A57E (10^?10 M versus 10^?7 M).     

Determination and optimization of a strong promoter element from <Emphasis Type="Italic">Bacillus amyloliquefaciens</Emphasis> by using a promoter probe vector

Objective

To construct a promoter probe vector, pBE-bgaB, to screen strong promoters from Bacillus amyloliquefaciens.

Results

266 colonies containing active promoter elements from the genomic DNA of B. amyloliquefaciens were identified. Among these, promoter P41 exhibited the strongest β-Gal activity in Escherichia coli and B. amyloliquefaciens. Sequence analysis showed that promoter P41 contained P _ykuN , a ykuN gene encoding flavodoxin. Optimization of the ribosome-binding site from P41 to P₃₈₂ improved β-Gal activity by ~ 200%.

Conclusion

A new strong promoter for protein expression and genetic engineering of Bacillus species.

     

Synthesis of Bacteriophage λ Proteins <Emphasis Type="Italic">in vitro</Emphasis>

λ DNA stimulates a low level of protein synthesis in extracts of E. coli supplemented with RNA polymerase. The synthesis is efficiently and specifically repressed by addition of purified λ repressor. About 90% of the protein product is from the rightwards, or tof, promoter (P _R ) and 10% from the leftwards, or N, promoter (P _L ). The main polypeptide product is a low molecular species from the tof operon.     

Vanillin Resistance Induced by BssS Overexpression in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Overexpression of the BssS gene, a biofilm formation regulator, in planktonic Escherichia coli cells has been shown to confer the vanillin-resistant phenotype Van^r to the bacteria. The MG1655P_L-tac-bssS strain started growing in liquid aerated LB medium with 2 g/L vanillin after a lag phase of 17 ± 2 h, whereas the original MG1655 strain did not grow under these conditions. The role of aldehyde reductase YqhD, a vanillin- degrading enzyme, in Van^r phenotype formation has been assessed. However, the Van^r trait in the MG1655P_L-tac-bssS strain primarily depended on autoinducer-2 (AI-2), which formed in E. coli cells with an intact luxS gene. We supposed that BssS acts together with autoinducer-2 (which presumably accumulated during the prolonged lag phase) to induce vanillin resistance determined by changes in the expression of a range of genes.     

Co-expression of Beta-Glucosidase and Laccase in <Emphasis Type="Italic">Trichoderma reesei</Emphasis> by Random Insertion with Enhanced Filter Paper Activity

Trichoderma reesei strain Rut-C30 was modified with enhanced beta-glycosidase (BGL) activity to balance the cellulase system and generated laccase (LAC) protein for lignin degradation. Initially, the binary plasmid p1300-w1 was constructed to express T. reesei bgl2 under the control of promoter P _pki and T-nos terminator. Random insertion was performed via Agrobacterium tumefaciens-mediated transformation. A total of 353 mutants were obtained, and 34PTrb2 was exceptionally stable with increased FPA and BGL activity after screening for extracellular enzyme activity. Subsequently, 34PTrb2 was used as parent strain via the same method to insert the lac gene from Fomes lignosus, with promoter P _gpd , followed by cbh1 signal peptide trss and T-nos as terminator. Several mutants successfully expressed enzyme LAC with stable activity of approximately 0.13 U/mL. The mutant 15Gsslac increased activity by 40.4% FPA compared with that of the host Rut-C30.     

Optimization of the purine operon and energy generation in <Emphasis Type="Italic">Bacillus amyloliquefaciens</Emphasis> for guanosine production

Objectives

To deregulate the purine operon of the purine biosynthetic pathway and optimize energy generation of the respiratory chain to improve the yield of guanosine in Bacillus amyloliquefaciens XH7.

Results

The 5′-untranslated region of the purine operon, which contains the guanine-sensing riboswitch, was disrupted. The native promoter Pw in B. amyloliquefaciens XH7 was replaced by different strong promoters. Among the promoter replacement mutants, XH7purE::P41 gave the highest guanosine yield (16.3 g/l), with an increase of 23% compared with B. amyloliquefaciens XH7. The relative expression levels of the purine operon genes (purE, purF, and purD) in the XH7purE::P41 mutant were upregulated. The concentration of inosine monophosphate (IMP), the primary intermediate in the purine pathway, was also significantly increased in the XH7purE::P41 mutant. Combined modification of the low-coupling branched respiratory chains (cytochrome bd oxidase) improved guanosine production synergistically. The final guanosine yield in the XH7purE::P41△cyd mutant increased by 41% to 19 g/l compared with B. amyloliquefaciens XH7.

Conclusion

The combined modification strategy used in this study is a novel approach to improve the production of guanosine in industrial bacterial strains.