Development and Characterization of a Gene Expression Reporter System for Clostridium acetobutylicum ATCC 824

A gene expression reporter system (pHT3) for Clostridium acetobutylicum ATCC 824 was developed by using the lacZ gene from Thermoanaerobacterium thermosulfurogenes EM1 as the reporter gene. In order to test the reporter system, promoters of three key metabolic pathway genes, ptb (coding for phosphotransbutyrylase), thl (coding for thiolase), and adc (coding for acetoacetate decarboxylase), were cloned upstream of the reporter gene in pHT3 in order to construct vectors pHT4, pHT5, and pHTA, respectively. Detection of β-galactosidase activity in time course studies performed with strains ATCC 824(pHT4), ATCC 824(pHT5), and ATCC 824(pHTA) demonstrated that the reporter gene produced a functional β-galactosidase in C. acetobutylicum. In addition, time course studies revealed differences in the β-galactosidase specific activity profiles of strains ATCC 824(pHT4), ATCC 824(pHT5), and ATCC 824(pHTA), suggesting that the reporter system developed in this study is able to effectively distinguish between different promoters. The stability of the β-galactosidase produced by the reporter gene was also examined with strains ATCC 824(pHT4) and ATCC 824(pHT5) by using chloramphenicol treatment to inhibit protein synthesis. The data indicated that the β-galactosidase produced by the lacZ gene from T. thermosulfurogenes EM1 was stable in the exponential phase of growth. In pH-controlled fermentations of ATCC 824(pHT4), the kinetics of β-galactosidase formation from the ptb promoter and phosphotransbutyrylase formation from its own autologous promoter were found to be similar.     

Characterization and Development of Two Reporter Gene Systems for Clostridium acetobutylicum

The use of lacZ from Thermoanaerobacterium thermosulfurigenes (encoding β-galactosidase) and lucB from Photinus pyralis (encoding luciferase) as reporter genes in Clostridium acetobutylicum was analyzed with promoters of genes required for solventogenesis and acidogenesis. Both systems proved to be well suited and allowed the detection of differences in promoter strength at least up to 100-fold. The luciferase assay could be performed much faster and comes close to online measurement. Resequencing of lacZ revealed a sequence error in the original database entry, which resulted in β-galactosidase with an additional 31 amino acids. Cutting off part of the gene encoding this C terminus resulted in decreased enzyme activity. The lacZ reporter data showed that bdhA (encoding butanol dehydrogenase A) is expressed during the early growth phase, followed by sol (encoding butyraldehyde/butanol dehydrogenase E and coenzyme A transferase) and bdhB (encoding butanol dehydrogenase B) expression. adc (encoding acetoacetate decarboxylase) was also induced early. There is about a 100-fold difference in expression between adc and bdhB (higher) and bdhA and the sol operon (lower). The lucB reporter activity could be increased 10-fold by the addition of ATP to the assay. Washing of the cells proved to be important in order to prevent a red shift of bioluminescence in an acidic environment (for reliable data). lucB reporter measurements confirmed the expression pattern of the sol and ptb-buk (encoding phosphotransbutyrylase and butyrate kinase) operons as determined by the lacZ reporter and showed that the expression level from the ptb promoter is 59-fold higher than that from the sol operon promoter.     

A Thermostable Clostridium thermocellum Lichenase-based Reporter System for Studying the Gene Expression Regulation in Prokaryotic and Eukaryotic Cells

A new reporter system was developed to study the gene expression regulation in prokaryotic (Escherichia coli) and eukaryotic (Saccharomyces cerevisiae and mammalian) cells. The system was based on the modified bacterial lichenase gene (licBM2), which was shown to meet the requirements for a reporter. The gene product was active and did not undergo modification in heterologous hosts. Simple and sensitive methods were used to detect and to quantitate the lichenase activity. Inducible licBM2 expression was demonstrated with E. coli and yeast cells, allowing the system to be employed in dynamic studies.     

丙酮丁酸梭菌胞浆蛋白质组的系统研究

为了建立丙酮丁醇梭菌(Clostridium acetobutylicum)蛋白质组的研究方法,采用超声波破碎细胞,并结合丙酮沉淀分离蛋白的方法,提取丙酮丁醇梭菌胞浆蛋白质,发现加入罗氏蛋白酶抑制剂能有效地减少提取过程中蛋白质的降解。通过二维电泳技术对其胞浆蛋白进行有效分离,在pH 4～7的胶上分离出大约1230个蛋白点。利用基质辅助激光解析电离飞行时间质谱成功鉴定了19个蛋白质。这些蛋白质组研究方法对于缺少蛋白质组研究的梭菌属具有一定的参考价值。     

Development of a Plasmid-Mediated Reporter System for In Vivo Monitoring of Gene Expression in the Archaeon Methanosarcina acetivorans

A plasmid-based gene reporter system has been developed to construct lacZ gene fusions for monitoring intrinsic promoter expression in Methanosarcina acetivorans. Constructs transform with high efficiency that can be readily screened by color selection on plates and exhibit a consistent copy number on different substrates negating the need for gene copy normalization. Expression of the CO dehydrogenase-acetyl coenzyme A synthase promoter fusion to lacZ revealed 18- to 54-fold down-regulation in cells grown on methylotrophic substrates compared with acetate-grown cells, which is up to an order of magnitude greater than the range of regulation previously reported by enzyme activity assays. This system complements and expands the current techniques for studying genetics of the methanosarcinal Archaea by providing a rapid method for monitoring and quantifying gene expression.     

Development of a sensitive gene expression reporter system and an inducible promoter-repressor system for Clostridium acetobutylicum

A sensitive gene expression reporter system was developed for Clostridium acetobutylicum ATCC 824 by using a customized gusA expression cassette. In discontinuous cultures, time course profiles of beta-glucuronidase specific activity reflected adequately in vivo dynamic up- and down-regulation of acidogenesis- and/or solventogenesis-associated promoter expression in C. acetobutylicum. Furthermore, a new inducible gene expression system was developed in C. acetobutylicum, based on the Staphylococcus xylosus xylose operon promoter-repressor regulatory system.     

Expression of a Cloned Cyclopropane Fatty Acid Synthase Gene Reduces Solvent Formation in Clostridium acetobutylicum ATCC 824

The cyclopropane fatty acid synthase gene (cfa) of Clostridium acetobutylicum ATCC 824 was cloned and overexpressed under the control of the clostridial ptb promoter. The function of the cfa gene was confirmed by complementation of an Escherichia coli cfa-deficient strain in terms of fatty acid composition and growth rate under solvent stress. Constructs expressing cfa were introduced into C. acetobutylicum hosts and cultured in rich glucose broth in static flasks without pH control. Overexpression of the cfa gene in the wild type and in a butyrate kinase-deficient strain increased the cyclopropane fatty acid content of early-log-phase cells as well as initial acid and butanol resistance. However, solvent production in the cfa-overexpressing strain was considerably decreased, while acetate and butyrate levels remained high. The findings suggest that overexpression of cfa results in changes in membrane properties that dampen the full induction of solventogenesis. The overexpression of a marR homologous gene preceding the cfa gene in the clostridial genome resulted in reduced cyclopropane fatty acid accumulation.     

Development of a Heat-Shock Inducible Gene Expression System in the Red Alga Cyanidioschyzon merolae

The cell of the unicellular red alga Cyanidioschyzon merolae contains a single chloroplast and mitochondrion, the division of which is tightly synchronized by a light/dark cycle. The genome content is extremely simple, with a low level of genetic redundancy, in photosynthetic eukaryotes. In addition, transient transformation and stable transformation by homologous recombination have been reported. However, for molecular genetic analyses of phenomena that are essential for cellular growth and survival, inducible gene expression/suppression systems are needed. Here, we report the development of a heat-shock inducible gene expression system in C. merolae. CMJ101C, encoding a small heat shock protein, is transcribed only when cells are exposed to an elevated temperature. Using a superfolder GFP as a reporter protein, the 200-bp upstream region of CMJ101C orf was determined to be the optimal promoter for heat-shock induction. The optimal temperature to induce expression is 50°C, at which C. merolae cells are able to proliferate. At least a 30-min heat shock is required for the expression of a protein of interest and a 60-min heat shock yields the maximum level of protein expression. After the heat shock, the mRNA level decreases rapidly. As an example of the system, the expression of a dominant negative form of chloroplast division DRP5B protein, which has a mutation in the GTPase domain, was induced. Expression of the dominant negative DRP5B resulted in the appearance of aberrant-shaped cells in which two daughter chloroplasts and the cells are still connected by a small DRP5B positive tube-like structure. This result suggests that the dominant negative DRP5B inhibited the final scission of the chloroplast division site, but not the earlier stages of division site constriction. It is also suggested that cell cycle progression is not arrested by the impairment of chloroplast division at the final stage.     

Complementation of an Escherichia coli Polypeptide Deformylase Mutant with a Gene from Clostridium acetobutylicum ATCC 824

The Clostridium acetobutylicum ATCC 824 DNA containing the 3′ end of a PriA homolog, deformylase (def), and the 5′ end of formyltransferase (fmt) has been cloned, sequenced, and used to complement an Escherichia coli mutant. While def and fmt have been found sharing an operon in other organisms, the presence of a third gene within a putative operon has not previously been found. Received: 29 August 1997 / Accepted: 6 October 1997     

Construction and Application of a luxABCDE Reporter System for Real-Time Monitoring of Enterococcus faecalis Gene Expression and Growth

The present work describes the construction of a novel molecular tool for luciferase-based bioluminescence (BL) tagging of Enterococcus faecalis. To this end, a vector (pSL101) and its derivatives conferring a genetically encoded bioluminescent phenotype on all tested strains of E. faecalis were constructed. pSL101 harbors the luxABCDE operon from pPL2lux and the pREG696 broad-host-range replicon and axe-txe toxin-antitoxin cassette, providing segregational stability for long-term plasmid persistence in the absence of antibiotic selection. The bioluminescent signals obtained from three highly expressed promoters correlated linearly (R(2) > 0.98) with the viable-cell count. We employed lux-tagged E. faecalis strains to monitor growth in real time in milk and urine in vitro. Furthermore, bioluminescence imaging (BLI) was used to visualize the magnitude of the bacterial burden during infection in the Galleria mellonella model system. To our knowledge, pSL101 is the first substrate addition-independent reporter system developed for BLI of E. faecalis and an efficient tool for spatiotemporal tracking of bacterial growth and quantitative determination of promoter activity in real time, noninvasively, in infection model systems.     

Autolytic Activity and an Autolysis-Deficient Mutant of Clostridium acetobutylicum

The optimum conditions for autolysis and autoplast formation in Clostridium acetobutylicum P262 have been defined. Autolysis was optimal at pH 6.3 in 0.04 M sodium phosphate buffer, and the bacterium produced latent and active forms of an autolytic enzyme. The ability of cells to autolyze decreased sharply when cultures entered the stationary phase. Autoplasts were induced by 0.25 to 0.5 M sucrose and were stable in media containing sucrose, CaCl₂, and MgCl₂. A pleiotropic autolysis-deficient mutant (lyt-1) was isolated. The mutant produced less autolysin than did the parent P262 strain, and it had an altered cell wall which was more resistant to both its own and P262 autolysins. The mutant formed long chains of cells, and lysozyme was required for the production of autoplasts. Growth of the P262 strain or the lyt-1 mutant was inhibited by the same concentrations of penicillin, ampicillin, and vancomycin. The lyt-1 mutant strain treated with the minimum growth-inhibitory concentration of penicillin autolyzed upon the addition of wild-type autolysin to the autolysis buffer at the same rate as did the untreated P262 strain. Chloramphenicol did not protect the penicillin-treated lyt-1 cells against autolysis enhanced by exogenous wild-type autolysin.     

Cloning, Sequence, and Expression of the Phosphofructokinase Gene of Clostridium acetobutylicum ATCC 824 in Escherichia coli

The pfk gene encoding phosphofructokinase (Pfk) from the anaerobic bacterium Clostridium acetobutylicum ATCC 824 was cloned and sequenced. The gene was identified in a plasmid library by complementation of an E. coli pfk mutant and by the ability to amplify a fragment by PCR using primers based on homologous regions of Pfk from other microorganisms. Nucleotide sequence analysis revealed a coding region for a 319-aa protein homologous to Pfks from other organisms. Enzyme assay and ability to complement the growth defects of E. coli pfk mutants confirmed the expression of the clostridial pfk gene. The pyruvate kinase (pyk) gene was identified adjacent to pfk. Such an arrangement for the genes encoding key regulators of glycolytic flux had not yet been described in a strict anaerobe. This gene arrangement has been found in other Gram-positive organisms, but not in Gram-negative organisms. Reveived: 15 September 1997 / Accepted: 12 January 1998     

Development and characterization of a gene expression reporter system for Clostridium acetobutylicum ATCC 824.

A gene expression reporter system (pHT3) for Clostridium acetobutylicum ATCC 824 was developed by using the lacZ gene from Thermoanaerobacterium thermosulfurogenes EM1 as the reporter gene. In order to test the reporter system, promoters of three key metabolic pathway genes, ptb (coding for phosphotransbutyrylase), thl (coding for thiolase), and adc (coding for acetoacetate decarboxylase), were cloned upstream of the reporter gene in pHT3 in order to construct vectors pHT4, pHT5, and pHTA, respectively. Detection of beta-galactosidase activity in time course studies performed with strains ATCC 824(pHT4), ATCC 824(pHT5), and ATCC 824(pHTA) demonstrated that the reporter gene produced a functional beta-galactosidase in C. acetobutylicum. In addition, time course studies revealed differences in the beta-galactosidase specific activity profiles of strains ATCC 824(pHT4), ATCC 824(pHT5), and ATCC 824(pHTA), suggesting that the reporter system developed in this study is able to effectively distinguish between different promoters. The stability of the beta-galactosidase produced by the reporter gene was also examined with strains ATCC 824(pHT4) and ATCC 824(pHT5) by using chloramphenicol treatment to inhibit protein synthesis. The data indicated that the beta-galactosidase produced by the lacZ gene from T. thermosulfurogenes EM1 was stable in the exponential phase of growth. In pH-controlled fermentations of ATCC 824(pHT4), the kinetics of beta-galactosidase formation from the ptb promoter and phosphotransbutyrylase formation from its own autologous promoter were found to be similar.     

Expression of a beta-galactosidase gene from Clostridium acetobutylicum in Lactococcus lactis subsp. lactis

A beta-galactosidase gene from Clostridium acetobutylicum NCIB 2951 was expressed after cloning into pSA3 and electroporation into derivatives of Lactococcus lactis subsp. lactis strains H1 and 7962. When the clostridial gene was introduced into a plasmid-free derivative of the starter-type Lact. lactis subsp. lactis strain H1, the resulting construct had high beta-galactosidase activity but utilized lactose only slightly faster than the recipient. beta-galactosidase activity in the construct decreased by over 50% if the 63 kb Lac plasmid pDI21 was also present with the beta-galactosidase gene. Growth rates of Lac+ H1 and 7962 derivatives were not affected after introduction of the clostridial beta-galactosidase, even though beta-galactosidase activity in a 7962 construct was more than double that of the wild-type strain. When pDI21 was electroporated into a plasmid-free variant of strain 7962, the recombinant had high phospho-beta-galactosidase activity and a growth rate equal to that of the H1 wild-type strain. The H1 plasmid-free strain grew slowly in T5 complex medium, utilized lactose and contained low phospho-beta-galactosidase activity. We suggest that beta-galactosidase expression can be regulated by the lactose phosphotransferase system-tagatose pathway and that Lact. lactis subsp. lactis strain H1 has an inefficient permease for lactose and contains chromosomally-encoded phospho-beta-galactosidase genes.