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Abstract The expression of all sequenced acetone and butanol formation genes was followed using mRNA analysis during the shift from acidogenesis to solventogenesis in continuous culture of Clostridium acetobutylicum . Differential induction or derepression of the bdhA, bdhB , and adc genes as well as the sol operon was observed during the pH-induced shift. The order of induction of the three different butanol dehydrogenase genes was found to be bdhA-sol operon- bdhB , offering an explanation for the physiological role of the respective enzymes. Peak mRNA synthesis of an autolysin and a heat shock gene at the onset of solventogenesis was detected in addition to the above-mentioned genes. None of the hitherto sequenced genes of butanologenic enzymes was found to be involved in butanol production during the Methyl viologen-induced shift, indicating the presence of yet unknown genes encoding alcohol and aldehyde dehydrogenases.  相似文献   

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The use of lacZ from Thermoanaerobacterium thermosulfurigenes (encoding beta-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 beta-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.  相似文献   

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DNA microarray analysis of Clostridium acetobutylicum was used to examine the genomic-scale gene expression changes during the shift from exponential-phase growth and acidogenesis to stationary phase and solventogenesis. Self-organizing maps were used to identify novel expression patterns of functional gene classes, including aromatic and branched-chain amino acid synthesis, ribosomal proteins, cobalt and iron transporters, cobalamin biosynthesis, and lipid biosynthesis. The majority of pSOL1 megaplasmid genes (in addition to the solventogenic genes aad-ctfA-ctfB and adc) had increased expression at the onset of solventogenesis, suggesting that other megaplasmid genes may play a role in stationary-phase phenomena. Analysis of sporulation genes and comparison with published Bacillus subtilis results indicated conserved expression patterns of early sporulation genes, including spo0A, the sigF operon, and putative canonical genes of the sigma(H) and sigma(F) regulons. However, sigE expression could not be detected within 7.5 h of initial spo0A expression, consistent with the observed extended time between the appearance of clostridial forms and endospore formation. The results were compared with microarray comparisons of the wild-type strain and the nonsolventogenic, asporogenous M5 strain, which lacks the pSOL1 megaplasmid. While some results were similar, the expression of primary metabolism genes and heat shock proteins was higher in M5, suggesting a difference in metabolic regulation or a butyrate stress response in M5. The results of this microarray platform and analysis were further validated by comparing gene expression patterns to previously published Northern analyses, reporter assays, and two-dimensional protein electrophoresis data of metabolic genes (including all major solventogenesis genes), sporulation genes, heat shock proteins, and other solventogenesis-induced gene expression.  相似文献   

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Using gene expression reporter vectors, we examined the activity of the spoIIE promoter in wild-type and spo0A-deleted strains of Clostridium acetobutylicum ATCC 824. In wild-type cells, the spoIIE promoter is active in a transient manner during late solventogenesis, but in strain SKO1, where the sporulation initiator spo0A is disrupted, no spoIIE promoter activity is detectable at any stage of growth. Strains 824(pMSpo) and 824(pASspo) were created to overexpress spoIIE and to decrease spoIIE expression via antisense RNA targeted against spoIIE, respectively. Some cultures of strains 824(pMSpo) degenerated during fermentations by losing the pSOL1 megaplasmid and hence did not produce the solvents ethanol, acetone, and butanol. The frequent degeneration event was shown to require an intact copy of spoIIE. Nondegenerate cultures of 824(pMSpo) exhibited normal growth and solvent production. Strain 824(pASspo) exhibited prolonged solventogenesis characterized by increased production of ethanol (225%), acetone (43%), and butanol (110%). Sporulation in strains harboring pASspo was significantly delayed, with sporulating cells exhibiting altered morphology. These results suggest that SpoIIE has no direct effect on the control of solventogenesis and that the changes in solvent production in spoIIE-downregulated cells are mediated by effects on the cell during sporulation.  相似文献   

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Abstract The 1.2-kb DNA fragment upstream of the linked β- hbd (3-hydroxybutyryl-CoA dehydrogenase) and adh1 (NADPH-dependent alcohol dehydrogenase) genes from Clostridium acetobutylicum P262 was sequenced. The upstream region contained an open reading frame (ORFB) which was found to have 44% amino acid identity to the fixB gene products of yRhizobium and Azorhizobium . The β- hbd and ORFB genes were expressed during the acidogenic and solventogenic phases. The β- hbd gene was transcribed on a single mRNA species of 2.0 kb, whereas the ORFB gene was transcribed on two species of mRNA of 2.0 and 3.5 kb, respectively. The adh1 gene was induced or derepressed at the pH breakpoint before the onset of solventogenesis and was transcribed on a single species of mRNA of 2.4 kb.  相似文献   

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Analysis of the Gram-positive Clostridium acetobutylicum genome reveals an inexplicable level of redundancy for the genes putatively involved in asparagine (Asn) and Asn-tRNA(Asn) synthesis. Besides a duplicated set of gatCAB tRNA-dependent amidotransferase genes, there is a triplication of aspartyl-tRNA synthetase genes and a duplication of asparagine synthetase B genes. This genomic landscape leads to the suspicion of the incoherent simultaneous use of the direct and indirect pathways of Asn and Asn-tRNA(Asn) formation. Through a combination of biochemical and genetic approaches, we show that C. acetobutylicum forms Asn and Asn-tRNA(Asn) by tRNA-dependent amidation. We demonstrate that an entire transamidation pathway composed of aspartyl-tRNA synthetase and one set of GatCAB genes is organized as an operon under the control of a tRNA(Asn)-dependent T-box riboswitch. Finally, our results suggest that this exceptional gene redundancy might be interconnected to control tRNA-dependent Asn synthesis, which in turn might be involved in controlling the metabolic switch from acidogenesis to solventogenesis in C. acetobutylicum.  相似文献   

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