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Construction of Plant Expression Vector for Recombinant Human Epidermal Growth Factor (hEGF)
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作者 武玉永 刘东东 +1 位作者 信凯 姚庆收 《Agricultural Science & Technology》 CAS 2013年第7期937-940,978,共5页
ObjectiveThis study aimed to construct plant expression vector for recombinant human epidermal growth factor (hEGF) and further to provide a basis for the expression of hEGF in peanut hairy root system. MethodAccord... ObjectiveThis study aimed to construct plant expression vector for recombinant human epidermal growth factor (hEGF) and further to provide a basis for the expression of hEGF in peanut hairy root system. MethodAccording to the hEGF sequence in GenBank, hEGF was synthesized artificially; subsequently, hEGF gene was ligated with green fluorescent protein (GFP) gene, and their ligation product was then amplified with primers flanked with corresponding endonuclease cleavage sites, followed by double digestion by Sal I and EcoR I of the amplified products; next, pRI 101 AN DNA was extracted and digested by both Sal I and EcoR I; susequently, the digestion products of hEGF and GFP ligation fragment by Sal I and EcoR I and the digestion products of pRI 101 AN plasmid DNA by Sal I and EcoR I were ligated, and their ligation product was transformed into Escherichia coli XL10-Gold, followed by extraction of DNA from the recombinants exhibiting green fluorescence, which was then identified by enzymatic digestion and PCR, and the verified recombinant plasmid DNA was named pBZG101. ResultHuman epidermal growth factor gene (hEGF) and green fluorescent protein gene (GFP) were successfully ligated, and their ligation fragment was successfully ligated to pRI 101 AN DNA, finally with the acquirement of the plant expression vector for recombinant human epidermal growth factor-(pBZG101). ConclusionThe plant expression vector for recombinant human epidermal growth factor-(pBZG101)- was successfully constructed in this study. 展开更多
关键词 HEGF plant expression vector Escherichia coli CONSTRUCTION
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Cloning of H6H Gene from Atropa belladonna and Construction of the Efficient Plant Expression Vector
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作者 王贵君 郑月 +1 位作者 陈敏 廖志华 《Agricultural Science & Technology》 CAS 2011年第2期208-210,共3页
[Objective] The aim was to clone H6H gene from Atropa belladonna and construct an efficient plant expression vector.[Method] The coding sequence of H6H(Hyoscyamine 6β-hydroxylase)was cloned from Atropa belladonna w... [Objective] The aim was to clone H6H gene from Atropa belladonna and construct an efficient plant expression vector.[Method] The coding sequence of H6H(Hyoscyamine 6β-hydroxylase)was cloned from Atropa belladonna with RT-PCR.Then,the sequence was subcloned into the reconstructed plant binary expression vector p2301 to construct the recombinant vector p2301-H6H,which was then introduced into Agrobacterium tumefaciens strain LBA4404 and Agrobacterium rhizogenes strain C58C1,respectively.[Result] The engineering bacteria p2301-H6H-LBA4404 and p2301-H6H-C58C1 which could be directly used in genetic improvement were obtained.[Conclusion] The present research provided basis for the increasing of alkaloid content of Atropa belladonna by plant genetic engineering technology. 展开更多
关键词 Atropa belladonna Hyoscyamine 6β-hydroxylase plant expression vector
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Cloning of CBF3 Gene from Arabidopsis thaliana and Construction of Plant Expression Vector 被引量:3
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作者 张春平 束良佐 +2 位作者 张启军 吕川根 蔡小宁 《Agricultural Science & Technology》 CAS 2011年第5期670-673,共4页
[Objective] The aim was to clone CBF3 gene from Arabidopsis thaliana and construct plant expression vector pCAMBIA1301-Rd29A-CBF3.[Method] CBF3 gene and stress-inducible promoter Rd29A were amplified from the genomic ... [Objective] The aim was to clone CBF3 gene from Arabidopsis thaliana and construct plant expression vector pCAMBIA1301-Rd29A-CBF3.[Method] CBF3 gene and stress-inducible promoter Rd29A were amplified from the genomic DNA of A.thaliana for the construction of plant expression vector.[Result] Sequencing results showed that the cloned CBF3 gene had 750 bp,and showed 100% identity with the sequence published on GenBank.The promoter Rd29A had 1 425 bp,and showed 100% identity with the sequence published on GenBank.[Conclusion] Based on the binary vector pCAMBIA1301,the plant expression vector pCAMBIA1301-Rd29A-CBF3 was constructed successfully,which could materially improve the salt resistance,drought-tolerance,cold resistance of plants. 展开更多
关键词 CBF3 RD29A PROMOTER CLONE plant expression vector
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Cloning of XET gene from Anthocephalus chinensis and its plant expression vector construction 被引量:1
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作者 MA Sheng-jun ZHU Song-lin +3 位作者 LI Wei OUYANG Kun-xi LI Na CHEN Xiao-yang 《Forestry Studies in China》 CAS 2010年第2期79-84,共6页
A full-length cDNA sequence of xyloglucan endotransglycosylase gene (XET), abundantly expressed in the cambium of Anthocephalus chinensis was cloned by conserved PCR, rapid-amplification of cDNA ends and by chromoso... A full-length cDNA sequence of xyloglucan endotransglycosylase gene (XET), abundantly expressed in the cambium of Anthocephalus chinensis was cloned by conserved PCR, rapid-amplification of cDNA ends and by chromosome walking. Analytical results of the DNA sequence show that a 912 bp complete open reading frame (ORF) encoded a 303-amino acid protein was in the 1205 bp full cDNA sequence. The deduced amino acid sequence of AcXET, which contained the conserved specific EIDFE catalytic site sequence to XETs was homologous to the other known XET proteins. In order to study the gene function of AcXET and obtain transgenic plants, a plant expression vector pBIAcXET was constructed by recombinating the AcXET fragment from the cloning vector pMD19AcXET and the binary vector pBI121 between the XbaI and SmaI sites. The fragment ofAcXET gene was inserted between the CaMV 35S promotor and the coding region of the GUS gene in pBI121. The identification results show that the plant expression binary vector pBIAcXET was constructed successfully. These results lay the foundation for studying the molecular mechanism ofAcXET gene during wood formation. 展开更多
关键词 cDNA cloning sequence analysis AcXET gene plant expression vector
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Cloning and Bioinformatics Analysis of ZmERECTA-LIKE1 and Construction of Plant Expression Vector
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作者 Yihong JI Jinbao PAN +3 位作者 Min LU Jun HAN Zhangjie NAN Qingpeng SUN 《Agricultural Science & Technology》 CAS 2016年第3期523-525,共3页
[Objective] This study was conducted to clone and analyze ERECTA-LIKE1 gene in Zea mays by PCR and bioinformatics methods and to construct plant expression vector p Cambia3301-zm ERECTA-LIKE1. [Method] zm ERECTA-LIKE1... [Objective] This study was conducted to clone and analyze ERECTA-LIKE1 gene in Zea mays by PCR and bioinformatics methods and to construct plant expression vector p Cambia3301-zm ERECTA-LIKE1. [Method] zm ERECTA-LIKE1(zm ERL1)gene was obtained using RT-PCR, and physical-chemical properties were analyzed by bioinformatics methods, including domains,transmembrane regions, N-Glycosylation potential sites phosphorylation sites, and etc. [Result] Bioinformatics results showed that zm ERL1 gene was 2 169 bp, which encoded a protein consisting of 722 amino acids, 11 N-glycosylation potential sites and 42 kinase specific phosphorylation sites. According to CDD2.23 and TMHMM Server v. 2.0 software, there were leucine-rich repeats,a PKC domain and a transmembrane region in this protein. The theoretical p I and molecular weight of zm ERL1 encoded protein was 6.20 and 79 184.8 using Compute PI/Mw tool. Furthermore, we constructed the plant expression vector p Cambia3301-zm ERECTA-LIKE1 by subcloning zm ERL1 gene into p Cambia3301 instead of GUS. [Conclusion] The results provide a theoretical basis for the application of zm ERL1 gene in future study. 展开更多
关键词 Zea mays BIOINFORMATICS plant expression vector
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Construction of Plant Expression Vector of Heat Shock Factor Gene AtHsfA1a from Arabidopsis
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作者 Lihong GUO Xiaohong YANG Chunyan SHAO 《Agricultural Biotechnology》 CAS 2013年第4期1-4,共4页
[ Objective ] Heat shock factors (HSFs) are the major transcription factors of eukaryotic heat shock responses. This study aims to investigate the adversity stress tolerance functions of Arabidopsis heat shock facto... [ Objective ] Heat shock factors (HSFs) are the major transcription factors of eukaryotic heat shock responses. This study aims to investigate the adversity stress tolerance functions of Arabidopsis heat shock factor AtHsfAla, which has important significance for in-depth understanding of adversity stress tolerance mechanisms of plants and further utilization of heat shock factor genes. [Method] Genomic DNA of Arabidopsis was extracted with CTAB method and purified to obtain Arabidopsis DNA samples for in vitro site-specific recombination cloning ( Gateway cloning) to construct plant expression vector of heat shock factor AtHs- fAla. Firstly, donor vector pDONR 201/AtHsfAla was constructed based on attB and attP site-specific recombination method (BP reaction), to identify E. coli transformants harboring correct sequence of AtHsfAla by sequencing; secondly, plant expression vector pBTWG2/AttlsfAla overexpressing Arabidopsis heat shock factor AtHsfAla was constructed based on attL and attR site-specific recombination method (LR reaction), to screen E. coli transformants harboring target plasmid. [ Result] Plant expression vector of Arabidopsis heat shock factor gene AtHsfAla was constructed successfully. [ Conclusion] This study not only provided experimental materials for acquiring transgenic plants overexpressing heat shock transcription factor AtHsfAla, but also laid the foundation for further investigation of the diversity of adversity stress tolerance functions reanlated by HSFs. 展开更多
关键词 ARABIDOPSIS Heat shock factor AtHsfA1 a plant expression vector
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Construction of Plant Virus Expression Vector pClYVV/CP/W and Expression of GFP
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作者 王振东 王晓华 +5 位作者 孟鹏 秦会权 郑新伟 刘芳普 薛立江 张敏 《Agricultural Science & Technology》 CAS 2009年第5期38-41,48,共5页
[ Objective] The study was to report the construction of plant virus expression vector pCIYVV/CP/W and the expression of green fluorescent protein(GFP) with pCIYVV/CP/W, and to develop effective plat virus vector fo... [ Objective] The study was to report the construction of plant virus expression vector pCIYVV/CP/W and the expression of green fluorescent protein(GFP) with pCIYVV/CP/W, and to develop effective plat virus vector for plant bioreactor to produce useful protein. [ Method] A section of multiple cloning sites among NIb/CP genes in pCIYVV genome and deoxyribonucleotide polylinker of cleavage recognition sequence containing viral protease Nla were cloned with infectivity full-length cDNA of clover yellow vein virus (CIYVV), and pCIYVV/CP/W vector was constructed, GFP gene was inserted into pCIyVV/CP/W to construct the pCIYVV/CP/W/GFP vector. The transcription situation of recombinant virus clone was detected by RT-PCR, and targeted gene products expressed by recombinant virus clone were detected with western blot (WB). [Result] The broad bean seedling inoculated with pCIYVV/CP/W/GFP expressed the same symptom as wild type CIYVV, morbidity was of 100%, the result showed that recombinant virus clone pCIYVV/CP/W/GFP didn't suppress, insertion of foreign gene didn't destroy the open reading frame of pCIYVV/CP/W. Foreign gene can keep living in F, progeny virus genorne steadily, recombinant virus clone pCIYVV/CP/W/GFP could steadily express GFP in progeny virus at least.[ Conclusion] The useful plant virus vector was provided for useful protein expressing. 展开更多
关键词 plant virus expression vector pCIYVV/CP/W pCIYVV/CP/W/GFP CONSTRUCTION expression
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Cloning of BjNAC102 Promoter and Construction of Expression Vector in Brassica juncea
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作者 XIAO Xin-bo YUAN Yu-hui +5 位作者 YOU Liang HUANG Xin CHEN Ming-zhe MA Yin-hua LIU Xian-jun CHEN Hu 《Agricultural Science & Technology》 CAS 2024年第3期14-20,共7页
Transcription factor NAC102 plays an important role in the abiotic stress responses of plants.In this study,the promoter sequence of 3000 bp located in the upstream of the BjNAC102 gene was cloned from Brassica juncea... Transcription factor NAC102 plays an important role in the abiotic stress responses of plants.In this study,the promoter sequence of 3000 bp located in the upstream of the BjNAC102 gene was cloned from Brassica juncea‘Sichuan Yellow Seed’by using the homologous cloning method.The expression vector of the GUS gene driven by the BjNAC102 promoter was constructed by seamless cloning technology.The results showed that the sequence of the promoter of the BjNAC102 gene contained many cis-acting elements involved in light responsiveness,gibberellinresponsive element,and auxin-responsive element.It was speculated that BjNAC102 played an important role in the abiotic stress response in Brassica juncea.The expression vector of the promoter of the BjNAC102 gene was constructed,which layed a foundation for further studies of the expression pattern of the BjNAC102 gene in Brassica juncea. 展开更多
关键词 Brassica juncea Promoter BjNAC102 plant expression vector construction
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A Nimble Cloning-compatible vector system for high-throughput gene functional analysis in plants 被引量:1
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作者 Pu Yan Decai Tuo +3 位作者 Wentao Shen Haida Deng Peng Zhou Xinzheng Gao 《Plant Communications》 SCIE CSCD 2023年第2期65-76,共12页
Plant expression vectors are essential tools for gene functional analysis and molecular plant breeding.The gene of interest is transferred to the vector by molecular cloning technology.Nimble Cloning is a newly develo... Plant expression vectors are essential tools for gene functional analysis and molecular plant breeding.The gene of interest is transferred to the vector by molecular cloning technology.Nimble Cloning is a newly developed molecular cloning method with the advantages of simplicity,efficiency,and standardization.In this study,we developed a"pNC"vector system that contains 55 Nimble Cloning-compatible vectors for functional analysis of genes in plants.These vectors contain the NC frame flanked by unique adapters for one-step and standardized Nimble Cloning.We demonstrate that the pNC vectors are convenient and effective for the functional analysis of plant genes,including the study of gene ectopic expression,protein subcellular localization,protein-protein interaction,gene silencing(RNAi),virus-induced gene silencing,promoter activity,and CRISPR-Cas9-mediated genome editing.The"pNC"vector system represents a high-throughput toolkit that can facilitate the large-scale analysis of plant functional genomics. 展开更多
关键词 nimble cloning plant expression vector gene function ectopic expression genome editing
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