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The Escherichia coli nar promoter is maximally induced under anaerobic conditions in the presence of nitrate ion or under anaerobic only conditions, depending on the genotype of the E. coli nar promoter. Previously, we found that the E. coli nar promoter has some desirable characteristics as an inducible promoter in the E. coli host strains. In this study, the E. coli nar promoter with lacZ gene at the downstream was cloned onto a broad-host-range Gram-negative vector, pBBR122. It was then induced in some other Gram-negative host strains, such as Agrobacterium, Pseudomonas, and Rhizobium, to determine whether the E. coli nar promoter could be used as an inducible promoter in these strains. From shake-flask experiments it was found that the wild-type E. coli nar promoter cloned onto pBBR122, pNW61, was suppressed under aerobic conditions in an Agrobacterium host strain, was partially induced under microaerobic only conditions, and was maximally induced under microaerobic conditions in the presence of nitrate ion. Whereas the mutant-type E. coli nar promoter cloned onto pBBR122, pNW618, was suppressed under aerobic conditions and was maximally induced under microaerobic conditions, regardless of the presence of nitrate ion. This kind of induction pattern observed for the E. coli nar promoters in the Agrobacterium host strain was similar to that observed for the E. coli nar promoters in the E. coli host strain. On the other hand, it was found that both of the E. coli nar promoters, pNW61 and pNW618, in a Pseudomonas host strain were partially induced under aerobic conditions and were maximally induced under microaerobic conditions, regardless of the presence of nitrate. Finally, it was found that both of the E. coli nar promoters in a Rhizobium host strain were minimally induced, regardless of the presence of oxygen or nitrate ion. Similar induction patterns for the three strains were also observed from fermentor experiments in which the dissolved oxygen (DO) level was tightly controlled. From an evolutionary point of view, the results from the three Gram-negative host strains indicate that the E. coli nar promoter system, including the promoter and regulatory proteins, was best conserved in the Agrobacterium host strain and the least conserved in the Rhizobium host strain. From an industrial point of view, the results indicate that the E. coli nar promoter system can be used as an oxygen-dependent inducible promoter in both Agrobacterium and Pseudomonas host strains. 相似文献
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Chetta M Bafunno V Grillo R Mele A Lo Perfido P Notarnicola M Cellini F Cifarelli RA 《Biotechnology progress》2012,28(4):1106-1113
Escherichia coli has been recognized as the principal indicator of fecal contamination of water. Indeed, E. coli is the only species in the coliform group found in relationship with gastrointestinal tract of human and warm‐blooded animals and subsequently excreted in large numbers in the human feces. To obtain a complete picture of water quality and therefore, a better protection of public health, different techniques for water analysis have been proposed. In this article, we describe an alternative method that uses SYBR green real time‐polymerase chain reaction (RT‐PCR) technology to identify and quantify all E. coli biotypes in a group of wastewater samples collected from a wastewater depurator located in South of Italy. This new RT‐PCR protocol is accurate in measuring the concentration of chromosomal E. coli DNA using the amplification of three new specific fragments of the following bacteria genes: CadC, HNS, and Allan whose sequence is specific for E. coli family and conserved in all E. coli subtypes. This method allowed us to detect the presence of all E. coli biotypes directly in wastewater samples and estimated the correspondence between colony forming units and bacterial DNA concentrations. The availability of a rapid and sensitive method may be useful to monitor the persistence of E. coli in water, to evaluate the efficiency of wastewater purification treatments and the possible recycle for agricultural use. Furthermore, the development of a simple and routine method to monitor water quality with RT‐PCR analysis can encourage the testing of a higher number of samples. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 28: 1106–1113, 2012 相似文献
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Junqiu Xie Yuanmei Gou Qian Zhao Kairong Wang Xiongli Yang Jiexi Yan Wei Zhang Bangzhi Zhang Chi Ma Rui Wang 《Journal of peptide science》2014,20(11):876-884
Hospital‐acquired infections caused by multidrug‐resistant bacteria pose significant challenges for treatment, which necessitate the development of new antibiotics. Antimicrobial peptides are considered potential alternatives to conventional antibiotics. The skin of Anurans (frogs and toads) amphibians is an extraordinarily rich source of antimicrobial peptides. CPF‐C1 is a typical cationic antimicrobial peptide that was originally isolated from the tetraploid frog Xenopus clivii. Our results showed that CPF‐C1 has potent antimicrobial activity against both sensitive and multidrug‐resistant bacteria. It disrupted the outer and inner membranes of bacterial cells. CPF‐C1 induced both propidium iodide uptake into the bacterial cell and the leakage of calcein from large liposome vesicles, which suggests a mode of action that involves membrane disturbance. Scanning electron microscopy and transmission electron microscopy verified the morphologic changes of CPF‐C1‐treated bacterial cells and large liposome vesicles. The membrane‐dependent mode of action signifies that the CPF‐C1 peptide functions freely and without regard to conventional resistant mechanisms. Additionally, it is difficult for bacteria to develop resistance against CPF‐C1 under this action mode. Other studies indicated that CPF‐C1 had low cytotoxicity against mammalian cell. In conclusion, considering the increase in multidrug‐resistant bacterial infections, CPF‐C1 may offer a new strategy that can be considered a potential therapeutic agent for the treatment of diseases caused by multidrug‐resistant bacteria. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd. 相似文献
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Daniel V. Guebel Manuel Cánovas Néstor V. Torres 《Biotechnology and bioengineering》2009,104(4):785-795