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Recent progress in microbial cell surface display systems and their application on biosensors
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作者 HAIYING CHEN YUQING WU +1 位作者 BAOJIAN HUANG LEI HAN 《BIOCELL》 SCIE 2023年第6期1213-1223,共11页
Microbial cell surface display technology is a recombinant technology to express target proteins on the cell membrane,which can be used to redesign the cell surface with functional proteins and peptides.Bacterial and ... Microbial cell surface display technology is a recombinant technology to express target proteins on the cell membrane,which can be used to redesign the cell surface with functional proteins and peptides.Bacterial and yeast surface display systems are the most common cell surface display systems of prokaryotic and eukaryotic proteins,that are widely applied as the core elements in the field of biosensors due to their advantages,including enhanced stability,high yield,good safety,expression of larger and more complex proteins.To further promote the performance of biosensors,the biomineralized microbial surface display technology was proposed.This review summarized the different microbial surface display systems and the biomineralized surface display systems,where the mechanisms of surface display and biomineralization were introduced.Then we described the recent progress of their applications on biosensors for different types of detection targets.Finally,the outlooks and tendencies were discussed and forecasted with the expectation to provide some general functions and enlightenments to this aspect of research. 展开更多
关键词 BIOSENSOR Microbial surface display technology Bacterial surface display Yeast surface display BIOMINERALIZATION Analytical chemistry
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Surface Display of Rice Stripe Virus NSvc2 and Analysis of Its Membrane Fusion Activity 被引量:3
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作者 Shu-ling Zhao Xue-juan Dai +1 位作者 Jian-sheng Liang Chang-yong Liang 《Virologica Sinica》 CAS CSCD 2012年第2期100-108,共9页
Rice stripe virus (RSV) infects rice and is transmitted in a propagative manner by the small brown planthopper. How RSV enters an insect cell to initiate the infection cycle is poorly understood. Sequence analysis rev... Rice stripe virus (RSV) infects rice and is transmitted in a propagative manner by the small brown planthopper. How RSV enters an insect cell to initiate the infection cycle is poorly understood. Sequence analysis revealed that the RSV NSvc2 protein was similar to the membrane glycoproteins of several members in the family Bunyaviridae and might induce cell membrane fusion. To conveniently study the membrane fusion activity of NSvc2, we constructed cell surface display vectors for expressing Nsvc2 on the insect cell surface as the membrane glycoproteins of the enveloped viruses. Our results showed that NSvc2 was successfully expressed and displayed on the surface of insect Sf9 cells. When induced by low pH, the membrane fusion was not observed in the cells that expressed NSvc2. Additionally, the membrane fusion was also not detected when co-expressing Nsvc2 and the viral capsid protein on insect cell surface. Thus, RSV NSvc2 is probably different from the phlebovirus counterparts, which could suggest different functions. RSV might enter insect cells other than by fusion with plasma or endosome membrane. 展开更多
关键词 Rice stripe virus NSvc2 surface display Membrane fusion
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Surface Display of Domain Ⅲ of Japanese Encephalitis Virus E Protein on Salmonella Typhimurium by Using an Ice Nucleation Protein 被引量:2
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作者 Jian-lin Dou Tao Jing +1 位作者 Jingojing Fan Zhi-ming Yuan 《Virologica Sinica》 SCIE CAS CSCD 2011年第6期409-417,共9页
A bacterial cell surface display technique based on an ice nucleation protein has been employed for the development of live vaccine against viral infection. Due to its ubiquitous ability to invade host cells, Salmonel... A bacterial cell surface display technique based on an ice nucleation protein has been employed for the development of live vaccine against viral infection. Due to its ubiquitous ability to invade host cells, Salmonella typhimurium might be a good candidate for displaying viral antigens. We demonstrated the surface display of domain III of Japanese encephalitis virus E protein and the enhanced green fluorescent protein on S. typhimurium BRD509 using the ice nucleation protein. The effects of the motif in the ice nucleation protein on the effective display of integral protein were also investigated. The results showed that display motifs in the protein can target integral foreign protein on the surface of S. typhimurium BRD509. Moreover, recombinant strains with surface displayed viral proteins retained their invasiveness, suggesting that the recombinant S. typhimurium can be used as live vaccine vector for eliciting complete immunogenicity. The data may yield better understanding of the mechanism by which ice nucleation protein displays foreign proteins in the Salmonella strain. 展开更多
关键词 Cell surface display Ice nucleation protein Salmonella typhimurium Japanese encephalitis virus
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Construction and diversity analysis of a murine IgEphage surface display library
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作者 LIZONGDONG MINGYEH 《Cell Research》 SCIE CAS CSCD 1997年第2期161-170,共10页
To make further investigation of the IgE antibodyrepertoire in Trichosanthin (TCS) allergic responses, amurine IgE phage surface display library was constructed(3.0×105 independent clones). We first constructed t... To make further investigation of the IgE antibodyrepertoire in Trichosanthin (TCS) allergic responses, amurine IgE phage surface display library was constructed(3.0×105 independent clones). We first constructed theVe cDNA library (4.6×105 independent clones) and VκcDNA library (3.0×105 independent clones). Then, theVε and Vκ gene segments were amplified from both libraries by PCR respectively, and assembled into Fab fragment by SOE PCR. The phage library containing Fabs wasthus constructed. The diversity of Vε from this library wasanalyzed and proved. Fab clones with high specificity toTCS have been screened out. 展开更多
关键词 Phage surface display library trichosanthin murine IgE antibody
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Development of surface displaying system for heterologous protein expression in Candida tropicalis
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作者 Tingting Wang Haibing Zhang +5 位作者 Mengxuan Li Jiaxi Zheng Yuanyuan Xia Haiquan Yang Wei Shen Xianzhong Chen 《Systems Microbiology and Biomanufacturing》 2023年第2期298-311,共14页
The purpose of this study was to assess the potential application of cell surface display in Candida tropicalis.Surface display gene cassettes were constructed using five anchoring proteins from Saccharomyces cerevisi... The purpose of this study was to assess the potential application of cell surface display in Candida tropicalis.Surface display gene cassettes were constructed using five anchoring proteins from Saccharomyces cerevisiae,three of which[(suppression of exponential defect protein,SED1),(cell wall protein 2,CWP2)and(delayed anaerobic protein 4,DAN4)]were reported to show higher activity of heterologous proteins thanα-agglutinin(AGα1).The performance of yeast-enhanced green fluorescent protein(yeGFP)was evaluated using laser scanning confocal microscopy and flow cytometry.The results showed that the three anchoring regions(SED1,CWP2 and AGα1)successfully displayed yeGFP on the cell wall.To investigate the effect of the three anchoring proteins on the surface display of Rhizopus oryzaeα-amylase(ROA1)and Aspergillus aculeatusβ-glucosidase(BGL1)in C.tropicalis,we constructed surface display gene cassettes for ROA1 and BGL1,respectively.The strains containing the anchoring proteins SED1 and CWP2 showed higher activity of ROA1 and BGL1 than the strains containing the anchoring protein AGα1.The highest ROA1 and BGL1 activities of strains with SED1 were 6.37 U/g CDW and 7.93 U/g CDW,respectively,which were sixfold and eightfold higher than those of strain with AGα1.In addition,we also optimized signal peptides.The results indicated that signal peptides have an impact on enzyme activity. 展开更多
关键词 Yeast surface display Anchoring protein Glycosylphosphatidylinositol(GPI) Α-AMYLASE Β-GLUCOSIDASE Whole cell catalysis
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Isolation of Goose-origin scFv Antibodies Against Goose Parvovirus from Bacterial Display Antibody Libraries
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作者 Zhou Jin-xin Zhang Xiao-yu +5 位作者 Wang Yu-yang Huang Tao Guo Xiao-chen Li De-shan Ma Bo Ren Gui-ping 《Journal of Northeast Agricultural University(English Edition)》 CAS 2021年第1期50-60,共11页
Goose parvovirus(GPV)can cause a highly contagious and fatal gosling plague(GP)disease in goslings and muscoy ducklings.Here,three goose-origin neutralizing single chain variable fragment(scFv)antibodies against GPV S... Goose parvovirus(GPV)can cause a highly contagious and fatal gosling plague(GP)disease in goslings and muscoy ducklings.Here,three goose-origin neutralizing single chain variable fragment(scFv)antibodies against GPV SYG-61 were isolated.The genes of scFv antibodies were derived from goslings immunized with GPV SYG-61,and scFvs were subcloned into a pBSD vector for the construction of pBSD-scFv libraries.The pBSD-scFv libraries were screened following three rounds using VP2(protective antigen of GPV)as the bait by flow cytometry(FCM).After screening,the 15 clones with high mean fluorescence intensity(MFI)were isolated and sequenced.These 15 scFvs were expressed by pET-28a(+)in E.coli.The specificity and affinity of the 15 purified scFvs were successfully confirmed by ELISA.In the preliminary neutralization experiment on primary goose embryo fibroblast(GEF)in vitro,three of the 15 purified scFvs(named scFv-10,scFv-11 and scFv-50)showed significant neutralizing capacities.The study generated the first goose-origin neutralizing scFv against GPV and laid the foundation for the appearance of full-length goose-origin neutralizing monoclonal antibody against GPV. 展开更多
关键词 goose parvovirus(GPV) SCFV bacterial surface display technology antibody library
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Whole‑cell catalytic synthesis of trehalose by Corynebacterium glutamicum displaying trehalose synthase on its cell surface
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作者 Ming Fang Qiang Wang +4 位作者 Zhi Wang Ruiqi Lu Rufan Xing Xian Zhang Zhiming Rao 《Systems Microbiology and Biomanufacturing》 EI 2023年第3期489-497,共9页
Trehalose is a disaccharide with many applications in cosmetics,refrigeration,and food.Trehalose synthase is a significant enzyme in trehalose production.Escherichia coli is usually used to express this enzyme heterol... Trehalose is a disaccharide with many applications in cosmetics,refrigeration,and food.Trehalose synthase is a significant enzyme in trehalose production.Escherichia coli is usually used to express this enzyme heterologously.Since E.coli is a pathogenic strain,we chose Corynebacterium glutamicum ATCC13032 as an engineering strain in this study for food safety reasons.Because of its poor permeability,we constructed two recombinant C.glutamicum strains using two anchor proteins,PorH,and short-length NCgl1337,to anchor trehalose synthase from Streptomyces coelicolor on the cell surface and synthesize trehalose directly from maltose.Studies on enzymatic properties indicated that NCgl1337S–ScTreSK246A had better enzyme activity and thermal stability than the free enzyme.After optimizing the whole-cell transformation,the optimal transformation condition was 35°C,pH 7.0,and OD600 of 30.Under this condition,the conversion rate of 300 g/L maltose reached 69.5%in a 5 L fermentor.The relative conversion rate was still above 75%after repeated five times. 展开更多
关键词 Trehalose synthase Corynebacterium glutamicum surface display Whole-cell catalyses
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Surface display of carbonic anhydrase on Escherichia coli for CO_(2) capture and mineralization 被引量:2
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作者 Yinzhuang Zhu Yaru Liu +1 位作者 Mingmei Ai Xiaoqiang Jia 《Synthetic and Systems Biotechnology》 SCIE 2022年第1期460-473,共14页
Mineralization catalyzed by carbonic anhydrase(CA)is one of the most promising technologies for capturing CO_(2).In this work,Escherichia coli BL21(DE3)was used as the host,and the N-terminus of ice nucleation protein... Mineralization catalyzed by carbonic anhydrase(CA)is one of the most promising technologies for capturing CO_(2).In this work,Escherichia coli BL21(DE3)was used as the host,and the N-terminus of ice nucleation protein(INPN)was used as the carrier protein.Different fusion patterns and vectors were used to construct CA surface display systems forα-carbonic anhydrase(HPCA)from Helicobacter pylori 26695 andα-carbonic anhydrase(SazCA)from Sulfurihydrogenibium azorense.The surface display system in which HPCA was fused with INPN via a flexible linker and intermediate repeat sequences showed higher whole-cell enzyme activity,while the enzyme activity of the SazCA expression system was significantly higher than that of the HPCA expression system.The pET22b vector with the signal peptide PelB was more suitable for the cell surface display of SazCA.Cell frac-tionation and western-blot analysis indicated that SazCA and INPN were successfully anchored on the cell’s outer membrane as a fusion protein.The enzyme activity of the surface display strain E-22b-I RL S(11.43 U⋅mL^(−1) OD 600−1)was significantly higher than that of the intracellular expression strain E-22b-S(8.355 U⋅mL^(−1) OD 600−1)under optimized induction conditions.Compared with free SazCA,E-22b-I RL S had higher thermal and pH stability.The long-term stability of SazCA was also significantly improved by surface display.When the engineered strain and free enzyme were used for CO_(2) mineralization,the amount of CaCO_(3) deposition catalyzed by the strain E-22b-I RL S on the surface(241 mg)was similar to that of the free SazCA and was significantly higher than the intracellular expression strain E-22b-S(173 mg).These results demonstrate that the SazCA surface display strain can serve as a whole-cell biocatalyst for CO_(2) capture and mineralization. 展开更多
关键词 Carbonic anhydrase Cell surface display Enzyme stability CO_(2)mineralization Ice nucleation protein
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Expression of phenylalanine ammonia lyase as an intracellularly free and extracellularly cell surface-immobilized enzyme on a gut microbe as a live biotherapeutic for phenylketonuria 被引量:3
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作者 Yu Jiang Bingbing Sun +7 位作者 Fenghui Qian Feng Dong Chongmao Xu Wuling Zhong Rui Huang Qiwei Zhai Yu Jiang Sheng Yang 《Science China(Life Sciences)》 SCIE CAS CSCD 2023年第1期127-136,共10页
Phenylketonuria(PKU),a disease resulting in the disability to degrade phenylalanine(Phe)is an inborn error with a 1 in 10,000 morbidity rate on average around the world which leads to neurotoxicity.As an potential alt... Phenylketonuria(PKU),a disease resulting in the disability to degrade phenylalanine(Phe)is an inborn error with a 1 in 10,000 morbidity rate on average around the world which leads to neurotoxicity.As an potential alternative to a protein-restricted diet,oral intake of engineered probiotics degrading Phe inside the body is a promising treatment,currently at clinical stage II(Isabella,et al.,2018).However,limited transmembrane transport of Phe is a bottleneck to further improvement of the probiotic’s activity.Here,we achieved simultaneous degradation of Phe both intracellularly and extracellularly by expressing genes encoding the Phe-metabolizing enzyme phenylalanine ammonia lyase(PAL)as an intracellularly free and a cell surface-immobilized enzyme in Escherichia coli Nissle 1917(EcN)which overcomes the transportation problem.The metabolic engineering strategy was also combined with strengthening of Phe transportation,transportation of PAL-catalyzed trans-cinnamic acid and fixation of released ammonia.Administration of our final synthetic strain TYS8500 with PAL both displayed on the cell surface and expressed inside the cell to the Pah^(F263S)PKU mouse model reduced blood Phe concentration by 44.4%compared to the control Ec N,independent of dietary protein intake.TYS8500 shows great potential in future applications for PKU therapy. 展开更多
关键词 phenylalanine ammonia lyase cell surface display PHENYLKETONURIA TYS8500 oral administration
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Structural analysis and molecular modeling of twoantitrichosanthin IgE clones from phage antibody library
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作者 LIZONGDONG YURENYUAN 《Cell Research》 SCIE CAS CSCD 1997年第2期171-178,共8页
Recently we constructed a murine IgE phage surfacedisplay library and screened out two IgE (Fab) cloneswith specific binding activity to Trichosanthin (TCS). Inthis work, the Vε and Vκ genes of the two clones werese... Recently we constructed a murine IgE phage surfacedisplay library and screened out two IgE (Fab) cloneswith specific binding activity to Trichosanthin (TCS). Inthis work, the Vε and Vκ genes of the two clones weresequenced and their putative germline gene usages werestudied. On the basis of the known 3D structure of Trichosanthin and antibody, molecular modeling was carriedout to study the antigen-antibody interaction. The possible antigenic determinant sites on the surface of TCSrecognized by both the clones were analyzed, and the reaction forces between TCS and two Fab fragments werealso analyzed respectively. 展开更多
关键词 Anti-Trichosanthin IgE molecular modeling phage surface display library antigenic determinants
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Cell surface protein engineering for high-performance whole-cell catalysts
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作者 Hajime Nakatani Katsutoshi Hori 《Frontiers of Chemical Science and Engineering》 SCIE EI CAS CSCD 2017年第1期46-57,共12页
Cell surface protein engineering facilitated by accumulation of information on genome and protein structure involves heterologous production and modifica- tion of cell surface proteins using genetic engineering, and i... Cell surface protein engineering facilitated by accumulation of information on genome and protein structure involves heterologous production and modifica- tion of cell surface proteins using genetic engineering, and is important for the development of high-performance whole-cell catalysts. In this field, cell surface display is a major technology by exposing target proteins, such as enzymes, on the cell surface using a cartier protein. The target proteins are fused to the carrier proteins that transport and tether them to the cell surface, as well as to a secretion signal. This paper reviews cell surface display systems for prokaryotic and eukaryotic cells from the perspective of carrier proteins, which determine the number of displayed molecules, and the localization, size, and direction (N- or C-terminal anchoring) of the passengers. We also discuss advanced methods for displaying multiple enzymes and a new method for the immobilization of whole-cell catalysts using adhesive surface proteins. 展开更多
关键词 cell surface engineering surface display whole-cell catalysts BIOPROCESS
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Improved degradation of azo dyes by lignin peroxidase following mutagenesis at two sites near the catalytic pocket and the application of peroxidase-coated yeast cell walls 被引量:3
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作者 Karla IlićĐurđić Raluca Ostafe +5 位作者 Olivera Prodanović AleksandraĐurđevićĐelmaš Nikolina Popović Rainer Fischer Stefan Schillberg Radivoje Prodanović 《Frontiers of Environmental Science & Engineering》 SCIE EI CAS CSCD 2021年第2期33-42,共10页
The enzymatic degradation of azo dyes is a promising alternative to ineffective chemical and physical remediation methods.Lignin peroxidase(LiP)from Phanerochaete chrysosporium is a hemecontaining lignin-degrading oxi... The enzymatic degradation of azo dyes is a promising alternative to ineffective chemical and physical remediation methods.Lignin peroxidase(LiP)from Phanerochaete chrysosporium is a hemecontaining lignin-degrading oxidoreductase that catalyzes the peroxide-dependent oxidation of diverse molecules,including industrial dyes.This enzyme is therefore ideal as a starting point for protein engineering.Accordingly,we subjected two positions(165 and 264)in the environment of the catalytic Trp171 residue to saturation mutagenesis,and the resulting library of 104 independent clones was expressed on the surface of yeast cells.This yeast display library was used for the selection of variants with the ability to break down structurally-distinct azo dyes more efficiently.We identified mutants with up to 10-fold greater affinity than wild-type LiP for three diverse azo dyes(Evans blue,amido black 10B and Guinea green)and up to 13-fold higher catalytic activity.Additionally,cell wall fragments displaying mutant LiP enzymes were prepared by toluene-induced cell lysis,achieving significant increases in both enzyme activity and stability compared to a whole-cell biocatalyst.LiPcoated cell wall fragments retained their initial dye degradation activity after 10 reaction cycles each lasting 8 h.The best-performing mutants removed up to 2.5-fold more of each dye than the wild-type LiP in multiple reaction cycles. 展开更多
关键词 BIOREMEDIATION Enzyme immobilization Protein engineering Yeast surface display
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Construction of the yeast whole-cell Rhizopus oryzae lipase biocatalyst with high activity 被引量:1
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作者 Mei-ling CHEN Qin GUO +4 位作者 Rui-zhi WANG Juan XU Chen-wei ZHOU Hui RUAN Guo-qing HE 《Journal of Zhejiang University-Science B(Biomedicine & Biotechnology)》 SCIE CAS CSCD 2011年第7期545-551,共7页
Surface display is effectively utilized to construct a whole-cell biocatalyst.Codon optimization has been proven to be effective in maximizing production of heterologous proteins in yeast.Here,the cDNA sequence of Rhi... Surface display is effectively utilized to construct a whole-cell biocatalyst.Codon optimization has been proven to be effective in maximizing production of heterologous proteins in yeast.Here,the cDNA sequence of Rhizopus oryzae lipase (ROL) was optimized and synthesized according to the codon bias of Saccharomyces cerevisiae,and based on the Saccharomyces cerevisiae cell surface display system with α-agglutinin as an anchor,recombinant yeast displaying fully codon-optimized ROL with high activity was successfully constructed.Compared with the wild-type ROL-displaying yeast,the activity of the codon-optimized ROL yeast whole-cell biocatalyst (25 U/g dried cells) was 12.8-fold higher in a hydrolysis reaction using p-nitrophenyl palmitate (pNPP) as the substrate.To our knowledge,this was the first attempt to combine the techniques of yeast surface display and codon optimization for whole-cell biocatalyst construction.Consequently,the yeast whole-cell ROL biocatalyst was constructed with high activity.The optimum pH and temperature for the yeast whole-cell ROL biocatalyst were pH 7.0 and 40 °C.Furthermore,this whole-cell biocatalyst was applied to the hydrolysis of tributyrin and the resulted conversion of butyric acid reached 96.91% after 144 h. 展开更多
关键词 Rhizopus oryzae lipase (ROL) Yeast surface display Codon optimization Whole-cell biocatalyst
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