表达耐辐射异常球菌IrrE蛋白对产丁二酸大肠杆菌耐渗透压的影响

高渗透压胁迫是降低生物法制备丁二酸生产效率的关键因素之一。为提高丁二酸生产菌株对高渗透压胁迫的耐受性能,本研究考察了外源引入全局调控蛋白IrrE提高大肠杆菌耐高渗透压胁迫性能的可行性。试验结果表明,在不同浓度Na+胁迫下,重组菌生长和发酵性能明显提升。在5 L罐发酵中,重组菌最大细胞干重、糖耗和丁二酸产量比对照菌分别提高了15.6%、22%和23%,表明引入IrrE蛋白可提高菌株对高渗透压胁迫的耐受能力。进一步比较重组菌和对照菌胞内相容性物质海藻糖和甘油的浓度后发现,重组菌胞内海藻糖和甘油浓度明显提高,其最大积累量分别是对照菌的1.3和3.8倍,推测IrrE可通过增加胞内相容性物质的积累提高菌株对高渗透压胁迫的耐受性。     

Deinococcus radiodurans DNA increases the radiation resistance of Escherichia coli

A genomic DNA library of Deinococcus radiodurans DNA has been prepared using the plasmid vector pBR322. The recombinant plasmid was used to transform a more radiation-sensitive organism, Escherichia coli RR1. Following selection of transformed organisms by their ability to grow on ampicillin, radiation-resistant organisms were selected by irradiation with 137Cs gamma radiation. Increased radiation resistance correlates with the presence of a 3-kb fragment of DNA in these cells which is derived from D. radiodurans.     

D.radiodurans CatB基因的克隆及其在大肠杆菌中的表达

通过生物信息学方法从耐辐射奇球菌（Ｄ．ｒａｄｉｏｄｕｒａｎｓ）全基因组居库中查鼠并克隆了编码过氧化氢酶（Ｃａｒｔａｌａｓｅ,Ｃａｔ）的１６１１ｂｐ长ＣａｔＢ基因,将ＣａｔＢ基因连人ｐＫＫ２２３－３表达载体,转化Ｃａｔ酶链陷型大肠杆菌（Ｅ．ｃｏｌｉ ＵＭ２）。转化菌裂解液ＰＡＧＥ酶活性染色分析实物具有Ｃａｔ酶活性,电泳过移位置与ＣａｔＢ位置相符。Ｄ．ｒａｄｉｏｄｕｒａｎｓ ＣａｔＢ基因的表达可使Ｅ．     

Expression of Deinococcus radiodurans PprI enhances the radioresistance of Escherichia coli

PprI, a newly identified gene switch responsible for extreme radioresistance of Deinococcus radiodurans, plays a central regulatory role in multiple DNA damage repair and protection pathways in response to radiation stress [Biochem. Biophy. Res. Commun. 306 (2003) 354]. To evaluate whether PprI also functions in the radioresistance in other organisms, D. radiodurans PprI protein (Deira-PprI) was expressed in Escherichia coli. The complemented E. coli strain showed an increase of approximately 1.6-fold radioresistance with a high dose of gamma irradiation. Immunoblotting assays showed that the expression of Deira-PprI in E. coli resulted in a significant increase in RecA protein expression following high dose ionizing radiation. The expression of Deira-PprI protein also significantly enhanced the scavenging ability of free radicals by inducing the enzymatic activity of KatG. These results indicate that exogenous expression of Deira-PprI promotes DNA repair and protection pathways and enhances the radioresistance of E. coli.     

Extracellular proteome changes of Deinococcus radiodurans under gamma-irradiation stress conditions

To analysis the change of Deinococcus radiodurans extracellular proteins recovering from gamma-irradiation, we examined extracellular proteome changes using two-dimensional polyacrylamide gel electrophoresis. Twenty-six spots on the gel of irradiated sample were showed significant changes compared with spots on the control gel. Using peptide mass fingerprinting via matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF-MS), 21 different proteins could be distinguished. Among the identified proteins, seven are classified in transport and metabolism, and one is involved in intracellular trafficking and secretion. The other proteins are known to several functions in the cytosol. Most of the proteins have not previously been reported to be relevant to radioresistance. These results imply that the transmembrane transportation is involved in and contributes to the radioresistance in this organism.     

Evidence against enhancement of the radioresistance of Escherichia coli by cloned Deinococcus radiodurans DNA

Deinococcus radiodurans genomic DNA, introduced to Escherichia coli in cloning vectors, has been reported to produce radioresistant E. coli that can be selected by gamma irradiation. In this report prior results are reassessed experimentally, and additional studies are presented. Results to date suggest that the acquired radioresistance of E. coli selected by gamma irradiation does not stem from expression of stable plasmid-encoded D. radiodurans sequences, and that acquired radioresistance is not readily transmitted to naive (unirradiated) E. coli by transformation of plasmid recovered from the radioresistant isolates. Several interpretations are discussed.     

PprA: a protein implicated in radioresistance of Deinococcus radiodurans stimulates catalase activity in Escherichia coli

PprA: a pleiotropic protein promoting DNA repair, role in radiation resistance of Deinococcus radiodurans was demonstrated. In this study, the effect of radiation and oxidative stress on transgenic Escherichia coli expressing pprA has been studied. The pprA gene from D. radiodurans KR1 was cloned and expressed in E. coli. Transgenic E. coli cells expressing PprA showed twofold to threefold higher tolerance to hydrogen peroxide as compared to control. The 2.8-fold in vivo stimulation of catalase activity largely contributed by KatE was observed as compared to nonrecombinant control. Furthermore, the purified PprA could stimulate the E. coli catalase activity by 1.7-fold in solution. The effect of PprA on catalase activity observed both in vivo and in vitro was reverted to normal levels in the presence of PprA antibodies. The results suggest that enhanced oxidative stress tolerance in E. coli expressing PprA was due to the PprA stimulation of catalase activity, perhaps through the interaction of these proteins.     

Enantioselective synthesis of L-homophenylalanine by whole cells of recombinant Escherichia coli expressing L-aminoacylase and N-acylamino acid racemase genes from Deinococcus radiodurans BCRC12827

L-Homophenylalanine (l-HPA) is a chiral unnatural amino acid used in the synthesis of angiotensin converting enzyme inhibitors and many pharmaceuticals. To develop a bioconversion process with dynamic resolution of N-acylamino acids for the l-HPA production, N-acylamino acid racemase (NAAAR) and l-aminoacylase (LAA) genes were cloned from Deinococcus radiodurans BCRC12827 and expressed in Escherichia coli XLIBlue. The recombinant enzymes were purified by nickel-chelate chromatography, and their biochemical properties were determined. The NAAAR had high racemization activity toward chiral N-acetyl-homophenylalanine (NAc-HPA). The LAA exhibited strict l-enantioselection to hydrolyze the NAc-l-HPA. A stirred glass vessel containing transformed E. coli cells expressing D. radiodurans NAAAR and LAA was used for the conversion of NAc-d-HPA to l-HPA. Unbalance activities of LAA and NAAAR were found in E. coli cell coexpressing laa and naaar genes, which resulted in the accumulation of an intermediate, NAc-l-HPA, in the early stage of conversion and a low productivity of 0.83 mmol l-HPA/L h. The results indicated that low activity of LAA present in the biomass is the rate-limiting factor in l-HPA production. In the case of two whole cells with separately expressed enzyme, the enzymatic activities of LAA and NAAAR could be balanced by changing the loading of individual cells. When the activities of two enzymes were fixed at 3600 U/L, 99.9% yield of l-HPA could be reached in 1 h, with a productivity of 10 mmol l-HPA/L h. The cells can be reused at least six cycles at a conversion yield of more than 96%. This is the first NAAAR/LAA process using NAc-HPA as substrate and recombinant whole cells containing Deinococcus enzymes as catalysts for the production of l-HPA to be reported.     

耐辐射球菌pprI在大肠杆菌中表达增强细胞抗氧化能力的研究

将耐辐射球菌(Deinococcus radiodurans)与DNA修复有关的开关基因—pprI通过穿梭质粒pRADZ3导入大肠杆菌TG1中,使其在正常培养条件下(不需诱导剂)表达PprI蛋白,并通过Western blot证实该基因在TG1中可稳定表达。与转化了空白质粒pRADZ3 TG1对照,观察了改造后的两种大肠杆菌在有H2O2氧化压力下的存活率和大肠杆菌中两种过氧化氢酶（KatE, KatG）的活性表达差异。结果表明,无论在指数生长期还是稳定生长期,能表达PprI蛋白的大肠杆菌比对照的存活率要高出10％左右;非变性电泳结果表明,耐辐射球菌pprI 在大肠杆菌中的表达使得KatE活性在指数生长期与稳定生长期分别增加1.5～2倍和2.5～3倍。证明耐辐射球菌pprI 在大肠杆菌中的表达能够增强细胞抗氧化能力。     

Evidence for the cloning of Deinococcus radiodurans DNA fragments that render Escherichia coli radiation resistant

DNA from the radiation-resistant bacterium Deinococcus radiodurans was isolated and used to generate a cosmid library. This cosmid library was grown in Escherichia coli and radiation-resistant E. coli were isolated. Following exposure to 1000 Gy the radiation-resistant transformants exhibited a survival of approximately 10(-1) instead of the 10(-11) exhibited by the nontransformed E. coli. Smaller fragments of DNA were subcloned from the radiation-resistant E. coli; these fragments bestow similar levels of radiation resistance (ratio of slopes = 6.8) to native E. coli upon transfection.     

耐辐射奇球菌recA基因的克隆、表达及其对recA缺损大肠杆菌辐射抗性的影响

将耐辐射奇球菌(Deinococcus radiodurans)recA基因克隆到表达质粒pET15b中,并在Escherichia coli HMS中高效表达了可溶性的RecA重组蛋白。同时将recA基因通过穿梭质粒pRADZ3导入recA缺损E.coli TG2细胞中,Western印迹实验显示RecA蛋白能够在不需要诱导剂IPTG的条件下稳定表达。辐射抗性实验表明,D.radiodurans的recA基因在E.coli细胞中的表达能够完全补偿recA缺损E.coli辐射抗性能力。