共查询到19条相似文献,搜索用时 125 毫秒
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枯草芽胞杆菌芽胞表面展示技术是把枯草芽胞杆菌作为芽胞表面展示的宿主来展示目的蛋白的一种技术。该技术不仅具备芽胞表面展示技术可展示分子量较大的目的蛋白、目的蛋白无需跨膜及芽胞的极强抗逆性等特点外,同时由于该技术的宿主菌--枯草芽胞杆菌的分子生物学信息研究得比较清楚、安全性高而被广泛应用。介绍了枯草芽胞杆菌表面展示近10年在生产疫苗和固定化酶方面的进展,并对如何提高表面展示目的蛋白的产量做了简要概述。 相似文献
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芽胞衣壳蛋白CotB、CotC、CotG等可作为芽胞表面展示外源蛋白的分子载体,制备口服重组疫苗或具有催化活性的重组酶。CotX为枯草芽胞杆菌Bacillussubtilis芽胞衣壳中的另一种结构蛋白。为证明CotX能否作为分子载体将外源蛋白展示在芽胞表面,本研究将cotX基因与绿色荧光蛋白基因gfp的编码序列进行基因重组,构建融合表达CotX-GFP的整合型重组质粒,将该质粒转化枯草芽胞杆菌,筛选重组菌株并诱导产生芽胞,观察到重组芽胞表面具有GFP绿色荧光。结果表明枯草芽胞杆菌的芽胞衣壳蛋白CotX位于芽胞衣壳外层,可作为芽胞表面展示外源蛋白的载体分子。 相似文献
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S-层(S-layer)是由单一的蛋白或糖蛋白组成的薄层晶状结构,它广泛存在于古细菌和真细菌细胞的最外表面,可包裹整个细胞。S-层在结构化学、形态学、遗传学以及物理化学等方面具有独特的性质,使之在生物技术、分子纳米技术和仿生学等领域蕴藏着广泛的应用潜力。近年来,随着微生物表面展示技术的兴起和展示系统的逐渐成熟,继外膜蛋白、附屑结构蛋白、粘附蛋白以及凝集素等表面蛋白之后,S-层蛋白被作为一种新的表面展示载体成功的在细胞表面展示了一些外源大分子。多聚组氨酸肽是由若干个单位的六聚组氨酸串联而成的短肽。六聚组氨酸能够有效的吸附镍、镉等重金 相似文献
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利用苏云金芽胞杆菌细胞表面展示系统表达禽流感病毒NP蛋白 总被引:1,自引:0,他引:1
首次利用苏云金芽胞杆菌(Bacillus thuringiensis,Bt)S-层蛋白CTC表面展示系统研究在Bt细胞表面展示禽流感病毒NP蛋白的可行性和最佳方案,为研制能常温长期保藏和运输的禽用口服疫苗奠定基础。用全长np基因或部分np基因(npp)代替S-层蛋白ctc基因的3′-端或中部,构建了4个重组质粒pSNP(含ctc-np)、pCSA-SNP(csa-ctc-np)、pCTC-NPP(ctc-npp)和pCSNPP(csa-ctc-npp)。将重组质粒分别电转化入Bt受体菌株BMB171中,获得了5个重组菌株BN、BCN、C-S、BCCN和CN。用5个重组菌株的营养细胞做玻片凝集试验,结果显示5个重组菌株均成功地在细胞表面展示了NP蛋白。用5个重组菌株的营养细胞免疫小鼠,ELISA测定血清抗体效价,结果显示5个重组菌株均具有免疫原性,其中重组菌株CN的免疫原性最高,其含融合基因csa-ctc-npp,证明该种融合基因的构建方式最佳。这为利用S-层蛋白CTC表面展示系统构建展示其它禽类病原体抗原的重组菌株以研制禽用热稳定性口服疫苗奠定了基础。 相似文献
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S层(Slayer)是由单一的蛋白或糖蛋白组成的薄层晶状结构,它广泛存在于古细菌和真细菌细胞的最外表面,可包裹整个细胞。S层在结构化学、形态学、遗传学以及物理化学等方面具有独特的性质,使之在生物技术、分子纳米技术和仿生学等领域蕴藏着广泛的应用潜力。近年来,随着微生物表 相似文献
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芽胞杆菌属芽胞长久存活机制的研究进展 总被引:1,自引:0,他引:1
能够在不利的外界环境下长久存活是一些产芽胞菌的重要特点之一,本文就国外对在芽胞内环境,酶休的眠,芽胞与化学因子、放射线、热的关系等方面的研究状况进行了论述。 相似文献
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能够在不利的外界环境下长久存活是一些产芽胞菌的重要特点之一。本文就国际上在芽胞内环境、酶的休眠、芽胞与化学因子、放射线、热的关系等方面的研究状况进行了综述。 相似文献
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针对生物威胁的现场处置工作,建立气溶胶芽胞表面滞留抗力的智能预测模型,以准确预测环境表面芽胞污染状况,为大规模的现场洗消任务提供重要依据,有利于实现及时反应、恰当反应和准确防护的目标。以枯草杆菌芽胞为试验菌,在气溶胶实验室进行芽胞的环境因素暴露及活力测定,以模拟环境中芽胞抗力变化规律数据为依据,采用Matlab6.1软件包中的神经网络工具箱进行抗力预测模型研究。根据研究目的、模拟环境条件和数据训练的平滑曲线等特征,设定了5个输入神经元,8个隐层节点和1个输出神经元。‘tansig’、‘purelin’为传递函数,trainlm为训练函数,网络迭代100次。模型回顾预测效率达到100%,前瞻预测效率达到91%。以实验室数据为依据,利用Matlab平台中的BP神经网络建立的芽胞气溶胶表面滞留抗力预测模型能利用环境因素信息有效预测芽胞抗力。 相似文献
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死亡谷芽胞杆菌(Bacillus vallismortis)是一种好氧、产胞的革兰氏阳性细菌,归类于枯草芽胞杆菌(Bacillus subtilis)群,对环境抗逆性强,且具有优良的生物活性,可以被广泛地应用到农业、医药及环境治理等领域。本文从死亡谷芽胞杆菌的亲缘性、抑菌活性、降解活性、生物吸附活性及产酶情况等方面做了总结,为死亡谷芽胞杆菌的进一步研究与应用提供理论依据。 相似文献
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The surface display laccase (SDL) biocatalyst, where the enzyme laccase is displayed on the surface of biological cells through synthetic biology, provides a new opportunity to develop sustainable technologies for removal of emerging contaminants from wastewater. This study vigorously characterized biocatalytic properties of the SDL in comparison to free laccase in removing emerging contaminant acetaminophen (APAP), with the aim to understand the effect of surface display on enzyme functionality and identify the strategy to overcome the potential limitation. The SDL could effectively remove APAP. Adding redox mediators substantially improved the removal efficiency. The Michaelis–Menten kinetic analysis showed that the redox mediator 2,2-azinobis-3-ethylbenzothiazoline-6-sulfonate could overcome the limitation of APAP accessing the active site of laccase in the SDL biocatalyst. The APAP removal rate catalyzed by the SDL in real secondary wastewater effluent was higher than that in acetate buffer; comprehensive enzyme kinetic analysis provided clear evidence that there were redox mediating compounds in the wastewater. Analysis of transformation products revealed that surface display did not change laccase functionality in terms of APAP transformation mechanism. In addition, the SDL retained 88% of the initial activity after six repeated APAP biotransformation reactions. Results from this study provide a scientific basis for developing and implementing SDL as an innovative biocatalytic material for contaminant treatment applications. 相似文献
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Tae Jung Park Shun Zheng Yeon Jae Kang & Sang Yup Lee 《FEMS microbiology letters》2009,293(1):141-147
Cell surface display was used as a strategy to display the gold-binding polypeptide (GBP) fusion protein on the surface of Escherichia coli , and consequently to immobilize the cells on the gold surface. The DNA encoding the GBP was fused to the truncated fadL gene and was expressed by the tac promoter. For the display of the core streptavidin (cSA) of Streptomyces avidinii , the cSA gene was fused to the truncated oprF gene. After the dual display of FadL–GBP and OprF–cSA on the surface of E. coli , binding of cells on the gold surface and the interaction of OprF–cSA with the biotin–horseradish peroxidase (HRP) were studied by surface plasmon resonance (SPR) analysis. Cells displaying the FadL–GBP fusion protein could be immobilized on the SPR sensor chip as shown by the SPR angle shift of 0.5°, which was stably bound at least for 60 h with a washing solution. When the FadL–GBP and OprF–cSA fusion proteins were displayed on the same cell surface, the former was used to immobilize the cells on the gold surface and the latter was used for the interaction studies with the biotin–HRP, which demonstrates that the strategy should be useful for developing whole-cell biosensor chips. 相似文献
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细菌表面呈现技术研究进展 总被引:2,自引:1,他引:2
自从首次描述外源蛋白在大肠杆菌表面呈现成功以来,细菌表面呈现技术得到了迅猛的发展,无论是革兰氏阴性菌还是革兰氏阳性菌都可用于异源蛋白的表面呈现,该技术被应用于微生物学、免疫学、分子生物学、疫苗学以及生物工程的多个领域的基础和应用研究。 相似文献
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Aims: To establish a novel cell surface display system that would enable the display of target proteins on Lactobacillus plantarum. Methods and Results: Blast P analysis of the amino acids sequence data revealed that the N‐terminus of the putative muropeptidase MurO from L. plantarum contained two putative lysin motif (LysM) repeat regions, implying that the MurO was involved in bacterial cell wall binding. To investigate the potential of MurO for surface display, green fluorescent protein (GFP) was fused to MurO at its C‐terminus and the resulting fusion protein was expressed in Escherichia coli. After being mixed with L. plantarum cells in vitro, GFP was successfully displayed on the surfaces of L. plantarum cells. Increases in the fluorescence intensities of chemically pretreated L. plantarum cells compared to those of nonpretreated cells suggested that the peptidoglycan was the binding ligand for MurO. SDS sensitivity assay showed that the GFP fluorescence intensity was reduced after being treated with SDS. To demonstrate the applicability of the MurO‐mediated surface display system, β‐galactosidase from Bifidobacterium bifidium, in place of GFP, was functionally displayed on the surface of L. plantarum cells via MurO. Conclusions: The MurO was a novel anchor protein for constructing a surface display system for L. plantarum. Significance and Impact of Study: The success in surface display of GFP and β‐galactosidase opened up the feasibility of employing the cell wall anchor of MurO for surface display in L. plantarum. 相似文献
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Saleem M Brim H Hussain S Arshad M Leigh MB Zia-ul-Hassan 《Biotechnology advances》2008,26(2):151-161
The display of heterologous proteins on the microbial cell surface by means of recombinant DNA biotechnologies has emerged as a novel approach for bioremediation of contaminated sites. Both bacteria and yeasts have been investigated for this purpose. Cell surface expression of specific proteins allows the engineered microorganisms to transport, bio-accumulate and/or detoxify heavy metals as well as to degrade xenobiotics. These otherwise would not be taken up and transformed by the microbial cell. This review focuses on the application of cell surface displays for the enhanced bio-accumulation of heavy metals by metal binding proteins. It also reviews the biodegradation of xenobiotics by enzymes/proteins expressed on microbial cell surfaces. 相似文献