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221.
In large-scale bioprocesses microbes are exposed to heterogeneous substrate availability reducing the overall process performance. A series of deletion strains was constructed from E. coli MG1655 aiming for a robust phenotype in heterogeneous fermentations with transient starvation. Deletion targets were hand-picked based on a list of genes derived from previous large-scale simulation runs. Each gene deletion was conducted on the premise of strict neutrality towards growth parameters in glucose minimal medium. The final strain of the series, named E. coli RM214, was cultivated continuously in an STR-PFR (stirred tank reactor – plug flow reactor) scale-down reactor. The scale-down reactor system simulated repeated passages through a glucose starvation zone. When exposed to nutrient gradients, E. coli RM214 had a significantly lower maintenance coefficient than E. coli MG1655 (Δms = 0.038 gGlucose/gCDW/h, p < 0.05). In an exemplary protein production scenario E. coli RM214 remained significantly more productive than E. coli MG1655 reaching 44% higher eGFP yield after 28 h of STR-PFR cultivation. This study developed E. coli RM214 as a robust chassis strain and demonstrated the feasibility of engineering microbial hosts for large-scale applications. 相似文献
222.
目的:通过DNA重组技术表达肠出血性大肠杆菌(EHEC)0157:H7的EspA和EspB蛋白,并分析它们的免疫保护性。方法:采用PCR技术从EHEC0157:H7基因组中扩增espA和espB基因,连接至pET-22b(4-)载体上,转化至宿主细胞大肠杆菌BL21(DE3),经IPTG诱导表达,用亲和层析纯化目的蛋白,SDS-PAGE测定其相对分子质量,免疫小鼠分析其免疫保护性。结果:重组espA和espB基因片段的测序结果与GenBank中的相应基因序列完全一致,一致性均为100%;得到了纯度为95%以上的重组EspA和EspB蛋白,免疫小鼠所得到的抗体效价均为10^6。结论:重组EspA和EspB蛋白获得了可溶性表达,表达的蛋白具有良好的免疫保护性,为进一步制备疫苗奠定了基础。 相似文献
223.
M-S. Kang K. Yaoi Y. Mitsuishi Y-M. Kim H. Mori 《Biocatalysis and Biotransformation》2013,31(1-2):96-103
Escherichia coli YicI is a retaining α-xylosidase, which strictly recognizes the α-xylosyl moiety at the non-reducing end, belonging to glycoside hydrolase family 31 (GH 31). We have elucidated key residues determining the substrate specificity at both glycone and aglycone sites of Escherichia coli α-xylosidase (YicI). Detection of distinguishing features between α-xylosidases and α-glucosidases of GH 31 in their close evolutionary relationship has been used for the modification of protein function, converting YicI into an α-glucosidase. Aglycone specificity has been characterized by its transxylosylation ability. YicI exhibits a preference for aldopyranosyl sugars having equatorial 4-OH as the acceptor substrate with 1,6 regioselectivity, resulting in transfer products. The disaccharide transfer products of YicI, α-d-Xylp-(1→6)-d-Manp, α-d-Xylp-(1→6)-d-Fruf, and α-d-Xylp-(1→3)-d-Frup, are novel oligosaccharides, which have never been reported. The transxylosylation products are moderately inhibitory towards intestinal α-glucosidases. 相似文献
224.
《Biocatalysis and Biotransformation》2013,31(5-6):293-303
AbstractIn an attempt to develop a novel biocatalyst able to efficiently catalyse the synthesis of non-natural amino acids, Escherichia coli TG1 was treated with 10 mM NaNO2 and then cultured in selective medium supplemented with 20 mM l-tert-leucine. Each culture was grown for 2 weeks and then subcultured into fresh medium with successive decreases of l-tert-leucine concentration at each transfer to a final value of 0.5 mM. The adapted cells resulting from this forced evolution procedure were able to grow in minimal medium with 0.1 mM l-tert-leucine as sole nitrogen source. Both HPLC and TLC verified progressive removal of l-tert-leucine from the medium during bacterial growth. Further studies revealed that the adapted cells metabolized l-tert-leucine by transamination, removing the amino group but leaving the carbon skeleton of the corresponding 2-oxoacid intact. Despite the mutagenesis, when the four obvious candidate amino acid aminotransferase genes were cloned and sequenced, there was no change in these structural genes. The activity of the adapted cells with l-tert-leucine is apparently attributable to the wild-type branched-chain amino acid aminotransferase (IlvAT), presumably expressed at higher levels as a result of a regulatory mutation. With the isolate I-4, the resting cells transaminate l-tert-leucine, l-norleucine, l-norvaline, γ-methyl-l-leucine and dl-homophenylalanine as effectively as does the crude extract. These evolved cells may be useful for synthesizing non-natural amino acids for the pharmaceutical industry. In addition, the adapted cells can also catalyse transamination of naturally occurring hydrophobic amino acids. 相似文献
225.
《Critical reviews in biochemistry and molecular biology》2013,48(6):465-513
AbstractOn UV irradiation of Escherichia coli cells, DNA replication is transiently arrested to allow removal of DNA damage by DNA repair mechanisms. This is followed by a resumption of DNA replication, a major recovery function whose mechanism is poorly understood. During the post-UV irradiation period the SOS stress response is induced, giving rise to a multiplicity of phenomena, including UV mutagenesis. The prevailing model is that UV mutagenesis occurs by the filling in of single-stranded DNA gaps present opposite UV lesions in the irradiated chromosome. These gaps can be formed by the activity of DNA replication or repair on the damaged DNA. The gap filling involves polymerization through UV lesions (also termed bypass synthesis or error-prone repair) by DNA polymerase III. The primary source of mutations is the incorporation of incorrect nucleotides opposite lesions. UV mutagenesis is a genetically regulated process, and it requires the SOS-inducible proteins RecA, UmuD, and UmuC. It may represent a minor repair pathway or a genetic program to accelerate evolution of cells under environmental stress conditions. 相似文献
226.
S. E. Kornguth A. Flangas J. Perrin R. Geison G. Scott 《Preparative biochemistry & biotechnology》2013,43(2):167-192
Synaptic complexes were isolated from different brain regions and developmental stages in a CsCl density gradient using a Ti-14 zonal rotor. The buoyant density of the synaptic complexes from all these tissues was 1.178–1.190. The conditions for maximal resolution were rapid displacement of the density gradient from the rotor (40 ml/min); continuous centrifugation of the particles in the gradient for 66 hours, sample loads not exceeding 200 mg membrane protein. The banding densities of the membranes in the CsCl gradient were shown to be a linear inverse function of their lipid content. The circular dichroism patterns of synaptic complexes and other neural membranes in suspension or SDS solutions were similar to those of membranes from other mammalian cells or from bacteria although the ellipticities of the neural membranes were lower. These studies indicate that the proteins in a variety of membranes are in an α-helical conformation. 相似文献
227.
228.
Haiyan Liu Lihong Li Lixian Zhou Yan Xu 《Preparative biochemistry & biotechnology》2013,43(8):725-733
AbstractThe hydrolysates of soy protein and milk protein are nutritional and functional food ingredients. Aspergillus pseudoglaucus aspergillopepsin I (App) is an acidic protease, including signal peptide, propeptide, and catalytic domain. Here, we cloned the catalytic domain App with or without propeptide in Escherichia coli. The results showed that the App without propeptide was not expressed or did not exhibit activity and App with propeptide (proApp) was highly expressed with a specific activity of 903?U/mg. Moreover, the denaturation temperature of proApp was 4.1?°C higher than App’s. The proApp showed 104?U/mg and 252?U/mg hydrolysis activities towards soy protein and milk protein under acidic conditions. By RP-HPLC analysis, the peptides obtained from the hydrolysates of soy protein and milk protein were hydrophilic peptides. This work first demonstrates efficient proteolysis of soy protein and milk protein through the functional expression of full-length proApp, which will likely have valuable industrial applications. 相似文献
229.
《Expert review of proteomics》2013,10(5):593-609
Proteomic studies on Shigella dysenteriae, Shigella flexneri, enterohemorrhagic Escherichia coli and uropathogenic E. coli (UPEC) are reviewed. UPEC causes infections in the urogenital tract, whereas the other species colonize and, to varying degrees, invade the intestinal tract. Type III secretion systems used to breach the mucosal barrier by the intestinal pathogens revealed distinct expression patterns in different host environments. Dynamic adaptations to changes in nutrient availability and oxygen were observed, including increased reliance on anaerobic respiration and mixed acid fermentation in vivo. Utilization of carbon and nitrogen resources by the bacteria varied considerably depending on the host model investigated. Shigellae and UPEC adapted to metal ion sequestration in the mammalian host by enhancing expression of various receptors and transporters for iron and zinc. This appears to reflect the preferred intracellular life stage of Shigella spp. and responses of UPEC to high levels of lipocalin and lactotransferrin in the urinary tract. 相似文献
230.