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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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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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Latest development of display technologies
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作者 高洪跃 姚秋香 +7 位作者 刘攀 郑志强 刘吉成 郑华东 曾超 于瀛洁 孙涛 曾震湘 《Chinese Physics B》 SCIE EI CAS CSCD 2016年第9期1-8,共8页
In this review we will focus on recent progress in the field of two-dimensional(2D) and three-dimensional(3D)display technologies.We present the current display materials and their applications,including organic l... In this review we will focus on recent progress in the field of two-dimensional(2D) and three-dimensional(3D)display technologies.We present the current display materials and their applications,including organic light-emitting diodes(OLEDs),flexible OLEDs quantum dot light emitting diodes(QLEDs),active-matrix organic light emitting diodes(AMOLEDs),electronic paper(E-paper),curved displays,stereoscopic 3D displays,volumetric 3D displays,light field3 D displays,and holographic 3D displays.Conventional 2D display devices,such as liquid crystal devices(LCDs) often result in ambiguity in high-dimensional data images because of lacking true depth information.This review thus provides a detailed description of 3D display technologies. 展开更多
关键词 display technology two-dimensional displays three-dimensional displays holographic displays
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Phage-displayed heptapeptide sequence conjugation significantly improves the specific targeting ability of antimicrobial peptides against Staphylococcus aureus
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作者 Tao Wang Peng Tan +10 位作者 Qi Tang Chenlong Zhou Yakun Ding Shenrui Xu Mengda Song Huiyang Fu Yucheng Zhang Xiaohui Zhang Yueyu Bai Zhihong Sun Xi Ma 《mLife》 CSCD 2024年第2期251-268,共18页
Broad-spectrum antibacterial drugs often lack specificity,leading to indiscriminate bactericidal activity,which can disrupt the normal microbial balance of the host flora and cause unnecessary cytotoxicity during syst... Broad-spectrum antibacterial drugs often lack specificity,leading to indiscriminate bactericidal activity,which can disrupt the normal microbial balance of the host flora and cause unnecessary cytotoxicity during systemic administration.In this study,we constructed a specifically targeted antimicrobial peptide against Staphylococcus aureus by introducing a phage-displayed peptide onto a broad-spectrum antimicrobial peptide and explored its structure–function relationship through one-factor modification.SFK2 obtained by screening based on the selectivity index and the targeting index showed specific killing ability against S.aureus.Moreover,SFK2 showed excellent biocompatibility in mice and piglet,and demonstrated significant therapeutic efficacy against S.aureus infection.In conclusion,our screening of phage-derived heptapeptides effectively enhances the specific bactericidal ability of the antimicrobial peptides against S.aureus,providing a theoretical basis for developing targeted antimicrobial peptides. 展开更多
关键词 antimicrobial peptides membrane disruption mechanism microbial infection phage display technology Staphylococcus aureus
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Method and Progress of the Research on Virus Affinity Peptide 被引量:1
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作者 张娜娜 卢清侠 +3 位作者 滕蔓 杨艳艳 张以芳 张改平 《Agricultural Science & Technology》 CAS 2016年第12期2713-2716,2725,共5页
With the continuous progress on affinity peptide research, it has become more and more popular in pharmacology and medicine. lt is promising to study these viruses affinity peptide to treat infectious diseases. And th... With the continuous progress on affinity peptide research, it has become more and more popular in pharmacology and medicine. lt is promising to study these viruses affinity peptide to treat infectious diseases. And the analysis on the virus affinity peptide with high selectivity and high sensitivity could provide valuable means for disease detection, treatment as wel as the study on the molecular mechanism of virus affinity peptide. Therefore, we reviewed the bioinformatics pre-diction technologies of computer simulation, molecular docking and homology model-ing, as wel as the research method on analyzing and screening virus affinity pep-tide, such as Phage display technology. 展开更多
关键词 Virus affinity peptide BIOINFORMATICS Homology modeling Phage display technology
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Screening and evaluation of human single-chain fragment variable antibody against hepatitis B virus surface antigen 被引量:8
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作者 Jian-Lin Zhang, Jian-Jin Guo, Zi-Yan Zhang, Yi-Xin Jing, Lin Zhang, Rui Guo, Ping Yan, Niu-Liang Cheng, Bo Niu and Jun Xie Department of Biochemistry and Molecular Biology, Shanxi Medical University ,Taiyuan 030001,China 《Hepatobiliary & Pancreatic Diseases International》 SCIE CAS 2006年第2期237-241,共5页
BACKGROUND: Phage display technology has become a vital tool in studies aimed at identifying molecules binding to a specific target. It enables the rapid generation and selection of high affinity, fully human antibody... BACKGROUND: Phage display technology has become a vital tool in studies aimed at identifying molecules binding to a specific target. It enables the rapid generation and selection of high affinity, fully human antibody product candidates to essentially any disease target appropriate for antibody therapy. In this study, we prepared the recombinant single-chain fragment variable ( ScFv) antibody to hepatitis B virus surface antigen (HBsAg) by the phage display technology for obtaining a virus-targeting mediator. METHODS: mRNA was isolated from B-lymphocytes from a healthy volunteer and converted into cDNA. The fragment variables of heavy and light chain were amplified separately and assembled into ScFv DNA with a specially constructed DNA linker by polymerase chain reaction. The ScFv DNA was ligated into the phagmid vector pCANT-AB5E and the ligated sample was transformed into competent E. coli TG1. The transformed cells were infected with M13K07 helper phage to form a human recombinant phage antibody library. The volume and recombinant rate of the library were evaluated by bacterial colony count and restriction analysis. After two rounds of panning with HBsAg. the phage clones displaying ScFv of the antibody were selected by enzyme-linked immunosorbant assay ( ELISA) from the enriched phage clones. The antigen binding affinity of the positive clone was detected by competition ELISA. HB2151 E. coli was transfected with the positive phage clone demonstrated by competition ELISA for production of a soluble form of the anti-HBsAg ScFv. ELISA assay was used to detect the antigen binding affinity of the soluble anti-HBsAg ScFv. Finally, the relative molecular mass of soluble anti-HBsAg ScFv was measured by SDS-PAGE. RESULTS: The variable heavy ( VH ) and variable light (VL) and ScFv DNAs were about 340bp, 320bp and 750bp, respectively. The volume of the library was up to 2 × 106 and 8 of 10 random clones were recombinants. Two phage clones could strongly compete with the original HBsAb for binding to HBsAg. Within 2 strong positive phage clones, the soluble anti-HBsAg ScFv from one clone was found to have the binding activity with HBsAg. SDS-PAGE showed that the relative molecular weight of soluble anti-HBsAg ScFv was 32 kDa. CONCLUSION: The anti-HBsAg ScFv successfully produced by phage antibody technology may be useful for broadening the scope of application of the antibody. 展开更多
关键词 phage display technology phage antibody library hepatitis B virus surface antigen single-chain fragment variable
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Technical analysis of 3DTV and outstanding issues
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作者 张兆杨 程浩 +1 位作者 沈礼权 杨高波 《Journal of Shanghai University(English Edition)》 CAS 2011年第4期316-320,共5页
This paper analyzes the technical characteristic of three-dimensional display technology (3DTV) system and some core technologies yet to be solved. It points out the ways to solve these problems and presents an effe... This paper analyzes the technical characteristic of three-dimensional display technology (3DTV) system and some core technologies yet to be solved. It points out the ways to solve these problems and presents an effective solution for thediscomfort of watching the three-dimensional TV. 展开更多
关键词 three-dimensional (3D) display multi-view/depth coding inter-view rendering discomfort of watching threedimensional display technology (3DTV)
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Application of M13 Phage Coat Proteins
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作者 Zhi DING Ling ZHAO Xuemei MA 《Agricultural Biotechnology》 CAS 2013年第1期45-47,共3页
M13 phage'is a filamentous bacteriophage containing a circular single-stranded DNA molecular, which is surrounded by approximately 2 800 copies of protein PVIII. In addition, there are five copies of each of proteins... M13 phage'is a filamentous bacteriophage containing a circular single-stranded DNA molecular, which is surrounded by approximately 2 800 copies of protein PVIII. In addition, there are five copies of each of proteins PVII and PXI in one end, and five copies of each of proteins PVI and PUI on the other. These coat proteins have play an important role in the infection and assembly of M13 phage. With the development of phage display technology, these five coat proteins all can be used in phage display, which plays an increasingly important role in molecular detection and treatment. 展开更多
关键词 M13 phage coat protein Phage display technology
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Enhanced photoluminescence of a microporous quantum dot color conversion layer by inkjet printing
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作者 Junchi Chen Qihao Jin +4 位作者 Yidenekachew.J.Donie Orlando.T.Perales Dmitry Busko Bryce.S.Richards Uli Lemmer 《Nano Research》 SCIE EI CSCD 2024年第8期7717-7725,共9页
Owing to their high color purity,tunable bandgap,and high efficiency,quantum dots(QDs)have gained significant attention as color conversion materials for high-end display applications.Moreover,inkjet-printed QD pixels... Owing to their high color purity,tunable bandgap,and high efficiency,quantum dots(QDs)have gained significant attention as color conversion materials for high-end display applications.Moreover,inkjet-printed QD pixels show great potential for realizing full-color mini/micro-light emitting diode(micro-LED)-based displays.As a color conversion layer,the photoluminescence intensity of QDs is limited by the insufficient absorptance of the excitation light due to the lack of scattering.Conventional scatterers,such as titanium dioxide microparticles,have been applied after additional surface engineering for sufficient dispersity to prevent nozzle clogging in inkjet printing process.In our work,as an alternative approach,we use inkjet printing for depositing a phase separating polymer ink based on polystyrene(PS)and polyethylene glycol(PEG).QD/polymer composite pixels with scattering micropores are realized.The morphology of the micropores can be tailored by the weight ratio between PS and PEG which enables the manipulation of scattering capability.With the presence of the microporous structure,the photoluminescence intensity of the QD film is enhanced by 110%in drop-cast films and by 35.3%in inkjet-printed QD pixel arrays compared to the reference samples. 展开更多
关键词 porous structure inkjet printing phase separation quantum dots display technology
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Three-dimensional display technologies in wave and ray optics: a review(Invited Paper) 被引量:4
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作者 张浩 赵燕 +1 位作者 曹良才 金国藩 《Chinese Optics Letters》 SCIE EI CAS CSCD 2014年第6期2-7,共6页
Multiple three-dimensional (3D) display technologies are reviewed. The display mechanisms discussed in this paper are classified into two categories: holographic display in wave optics and light field display in ra... Multiple three-dimensional (3D) display technologies are reviewed. The display mechanisms discussed in this paper are classified into two categories: holographic display in wave optics and light field display in ray optics, which present the 3D optical wave field in two different ways. Key technical characteristics of the optical systems and the depth cues of human visual system are analyzed. It is to be expected that these 3D display technologies will achieve practical applications with the increase of the optical system bandwidth. 展开更多
关键词 Three-dimensional display technologies in wave and ray optics WAVE
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Full-color quantum dots active matrix display fabricated by ink-jet printing 被引量:13
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作者 Congbiao Jiang Lan Mu +7 位作者 Jianhua Zou Zhiwei He Zhenji Zhong Lei Wang Miao Xu Jian Wang Junbiao Peng Yong Cao 《Science China Chemistry》 SCIE EI CAS CSCD 2017年第10期1349-1355,共7页
Making full-color active matrix display based on quantum dot light emitting diodes(AM-QLEDs) via ink-jet printing is attractive in display industry due to QLEDs' wide color gamut and their potential manufacturing ... Making full-color active matrix display based on quantum dot light emitting diodes(AM-QLEDs) via ink-jet printing is attractive in display industry due to QLEDs' wide color gamut and their potential manufacturing advantages of large screen size and low cost. The challenges for realizing AM-QLED display are how to achieve high quality films through ink-jet printing, multi-color patterning, electroluminescence(EL) color purity, and high efficiency. Herein, a 2-inch diagonal full-color AM-QLEDs display with pixel density of 120 pixels per inch(PPI) fabricated by ink-jet printing technique is presented. Driven by a metal oxide TFT(MOTFT) back-panel, the display exhibits a maximum brightness of 400 cd m.2, and a color gamut of 109%(NTSC 1931). The red, green, and blue(RGB) monochrome QLEDs passive matrix panels fabricated by ink-jet printing technique have a current efficiency(CE) of 2.5, 13.9, and 0.30 cd A.1, respectively. To the best of our knowledge, the efficiencies are the highest among passive matrix QLEDs panels made by ink-jet printing technique. The ink-jet printed QDs films show good thickness uniformity due to high viscosity and low volatility of the printable inks, and no cross-contamination between adjacent pixels resulting from the hydrophobic pixel defining layer. 展开更多
关键词 full-color display quantum dot light emitting diodes ink-jet printing technology pixel defining layer
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Emerging Technologies of Liquid Crystal Displays
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作者 Sin-Doo Lee Chang-Jae Yu +1 位作者 Jae-Hong Park Min-Sik Jung 《光学学报》 EI CAS CSCD 北大核心 2003年第S1期797-798,共2页
The general features and the emerging technologies of liquid crystal displays are described from the viewpoints of wide viewing and fast response technologies. The device applications of liquid crystals for optical co... The general features and the emerging technologies of liquid crystal displays are described from the viewpoints of wide viewing and fast response technologies. The device applications of liquid crystals for optical communications are also described. 展开更多
关键词 of in on IT AS LCD Emerging Technologies of Liquid Crystal displays been MODE DSG
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