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Expression and functional identification of the hypothetical adhesin P32 from Mycoplasma genitalium
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作者 LIN BO LI YI MOU WU WEN BO ZHANG MIN JUN YU 《Journal of Microbiology and Immunology》 2006年第3期200-206,共7页
Mycoplasma genitalium is the main causative agent for non-gonococcal and non-chlamydial urethritis. P32 is the putative surface-exposed membrane protein of M. genitalium and it has substaintial identity in amino acid ... Mycoplasma genitalium is the main causative agent for non-gonococcal and non-chlamydial urethritis. P32 is the putative surface-exposed membrane protein of M. genitalium and it has substaintial identity in amino acid sequence with adhesin protein P30 from M. pneumoniae. Since M. pneumoniae mutants lacking P30 protein is defective in cytadherence, P32 protein has been proposed to be an essential adhesin implicated in the adherence of M. genitaliurn to host cells. The prokaryotic expression vector pET-30 ( + )/p32 was constructed in the present study, and the recombinant protein was expressed in E. coli and purified under denaturing condition. As demonstrated by the immuno- blotting analysis, the recombinant protein could react with rabbit antisera against M. genitalium, and adherence inhibition assays were performed with antisera against this recombinant protein. It was demonstrated that P32 protein apperared to be an adhesion protein of M. genitalium, thus providing the experimental basis for better understanding of the pathogenesis of M. genitalium infection and for the development of the related vaccines against the infection. 展开更多
关键词 Mycoplasma genitaliurn Adhesin P32 Recombinant protein Expression functional identification
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Genes functional identification and synthetic biology of natural products
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作者 GAO Wei HUANG Lu-Qi 《Chinese Journal of Natural Medicines》 SCIE CAS CSCD 2020年第9期641-642,共2页
Synthetic biology is one of the rapid developing scientific fields in recent years. Through synthetic biology,we have a better understanding of the natural synthesis process of natural products, which provides a favor... Synthetic biology is one of the rapid developing scientific fields in recent years. Through synthetic biology,we have a better understanding of the natural synthesis process of natural products, which provides a favorable method to research the diversity of natural products, and also provides new tools for us to create new approach for producing natural products, we can synthesize compounds with different structures by artificial combination of different synthesis modules. 展开更多
关键词 Genes functional identification and synthetic biology of natural products
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The Function Identification of the Candidate Disease-Resistance Gene in Cabbage
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作者 CAO Bi-hao LEI Jian-jun +5 位作者 XIANG Chen-bin CHEN Guo-ju ZENG Guo-ping David J. Oliver ZHAO Shuang LU Ling-ling 《Agricultural Sciences in China》 CAS CSCD 2008年第3期314-320,共7页
In order to understand the function of TuR2, a candidate disease-resistance gene was isolated from cabbage, we transformed it into mustard (Brassicajuncea L. Linshicaoyaozi) which was susceptible to TuMV through Agr... In order to understand the function of TuR2, a candidate disease-resistance gene was isolated from cabbage, we transformed it into mustard (Brassicajuncea L. Linshicaoyaozi) which was susceptible to TuMV through Agrobacterium tumefacine-mediated method. Transgenic plants were detected by Southern blotting and Northern blotting. Our results confirmed that the TuR2 gene had been integrated into the mustard genome, and it showed different expression levels among primary transplants (T0). The primary transplants (T0) and the first progenies of transgenic plants (T1) were inoculated with TuMV in a greenhouse. The transgenic plants had high TuMV-resistance, whereas the serious virus disease symptom was observed in CK (no transformation plants). The TuR2 gene in the first progenies of transgenic plants (T1) showed dominant monogenic inheritance. Compared with CK, the progenies containing TuR2 gene had stronger resistance to TuMV. The TuR2 gene which was isolated from cabbage had the function of TuMV-resistance. 展开更多
关键词 TuR2 gene function identification TuMV-resistance
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Construction of Double Cross-over Expression Vector for Chloroplast Multicistron in Brassica napus L. 被引量:1
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作者 武玉永 姚庆收 马立新 《Agricultural Science & Technology》 CAS 2013年第3期402-406,共5页
[Objective] This study aimed to construct Brassica napus chloroplast multi- cistron double cross-over expression vector, to lay the foundation for the genetic engi- neering research of Brassica napus chloroplast. [Met... [Objective] This study aimed to construct Brassica napus chloroplast multi- cistron double cross-over expression vector, to lay the foundation for the genetic engi- neering research of Brassica napus chloroplast. [Method] Two primers were designed based on the known Brassica napus chloroplast DNA sequences AF267640 and Z50868 in GenBank. By using PCR method, two Brassica napus L. chloroplast DNA fragments were obtained, which were named RbcL and ACCD. The two Brassica na- pus chloroplast DNA homologous fragments were then cloned into plasmid pMD18-T to obtain recombinant plasmid pHBM715. Tandem expression cassette harboring spectinomycin-resistant gene aadA, mannanase gene man and green fluorescent pro- tein gene gfp was cloned into the plasmid pHBM715, thereby constructing Brassica napus chloroplast multicistron double cross-over expression vector pHBM716, which was transformed into Escherichia coil for expression and identification. [Result] Plate qualitative analysis was conducted for the functional identification of expression cas- sette in the constructed Brassica napus chloroplast multicistron double cross-over ex- pression vector, results showed that the three genes of the same multicistron were all expressed in E. coil [Conclusion] This study successfully constructed Brassica napus chloroplast multicistron double cross-over expression vector, which laid the foundation for the genetic engineering of Brassica napus chloroplast. 展开更多
关键词 Brassica napus L. Chloroplast DNA Multicistron Double cross-over Expression vector functional identification
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Construction of a High-efficient Expression Vector of Δ^(12) Fatty Acid Desaturase in Peanut and Its Prokaryotical Expression 被引量:4
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作者 殷冬梅 崔党群 贾斌 《Journal of Genetics and Genomics》 SCIE CAS CSCD 北大核心 2007年第1期81-88,共8页
A full-length sequence coding for △^12 fatty acid desaturase gene from peanut(Arachis hypogaea L.)was cloned into the expression vector, pRSETB, to generate recombinant plasmid pRSET/HO-A, which was subsequently tr... A full-length sequence coding for △^12 fatty acid desaturase gene from peanut(Arachis hypogaea L.)was cloned into the expression vector, pRSETB, to generate recombinant plasmid pRSET/HO-A, which was subsequently transformed into expression Escherichia. coli BL21(DE3)pLysS. The △^12 fatty acid desaturase was highly expressed in E. coli BL21(DE3)pLysS in the presence of isopropyl-D-thiogalactopyranoside (IPTG). The fusion protein was purified and used to form a reaction system in vitro by adding oleic acid as substrate and incubating it at 20℃ for 6 h. Total fatty acids was extracted and methlesterified and then analyzed with gas chromatography. A novel peak corresponding to linoleic acid methyl ester standards was detected with the same retention time. GC-MS (gas chromatogram and gas chromatogram-mass spectrometry) analysis showed that the novel peak was linoleic acid methyl ester. These results exhibited △^12 fatty acid desaturase activity, which could convert oleic acid to linoleic acid specifically. 展开更多
关键词 PEANUT △^12 fatty acid desaturase prokaryotical expression function identification
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Comparison of the Δ^(12) fatty acid desaturase gene between high-oleic and normal-oleic peanut genotypes 被引量:24
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作者 ShanlinYu Lijuan Pan +3 位作者 Qingli Yang Ping Min Zengkai Ren Hongsheng Zhang 《Journal of Genetics and Genomics》 SCIE CAS CSCD 北大核心 2008年第11期679-685,共7页
△^12 fatty acid desaturase gene has been targeted as a logical candidate controlling the high oleate trait in peanut seeds. By RT-PCR method, the full-length cDNAs of △^12 fatty acid desaturase gene were isolated fr... △^12 fatty acid desaturase gene has been targeted as a logical candidate controlling the high oleate trait in peanut seeds. By RT-PCR method, the full-length cDNAs of △^12 fatty acid desaturase gene were isolated from peanut (Arachis hypogaea L.) genotypes with normal and high ratio of oleic to linoleic acid, which were designated AhFAD2B and AhFAD2B', respectively. Sequence alignment of their coding regions revealed that an extra A was inserted at the position +442 bp of AhFAD2B' sequence of high oleic acid genotypes, which resulted in the shift of open reading frame and a truncated protein AhFAD2B', with the loss of one histidine box involved in metal ion complex required for the reduction of oxygen. Analysis of transcript level showed that the expression of △^12 fatty acid desaturase gene in high oleic acid genotype was slightly lower than that in normal genotype. The enzyme activity experiment of yeast (Saccharomyces cerevisiae) cell transformed with AhFAD2B or AhFAD2B' proved that only AhFAD2B gene product showed significant △^12 fatty acid desaturase activity, but AhFAD2B' gene product did not. These results suggested that the change of AhFAD2B' gene sequence resulted in lower activity or deactivation of △^12 fatty acid desaturase in high oleic acid genotype. 展开更多
关键词 PEANUT △^12 fatty acid desaturase oleic acid yeast expression function identification
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Isolation and Identification of a Functional Centromere Element in the Wild Rice Species Oryza granulata with the GG Genome
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作者 Chuandeng Yi Mingsen Wang +5 位作者 Wei Jiang Derong Wang Yong Zhou Zhiyun Gong Guohua Liang Minghong Gu 《Journal of Genetics and Genomics》 SCIE CAS CSCD 2015年第12期699-702,共4页
The centromere of eukaryotic chromosomes is the crucial locus responsible for sister chromatid cohesion and for correct segregation of chromosomes to daughter cells during cell division. In the structural genomics era... The centromere of eukaryotic chromosomes is the crucial locus responsible for sister chromatid cohesion and for correct segregation of chromosomes to daughter cells during cell division. In the structural genomics era, centromeres represent the last frontiers of higher eukaryotic genomes because of their densely methylated, highly repetitive and, heterochromatic DNA (Hall et al., 2004). Although these functions are conserved among all eukaryotes, centromeric DNA sequences are evolving rapidly (Jiang et al., 2003). 展开更多
关键词 FISH BAC Isolation and identification of a functional Centromere Element in the Wild Rice Species Oryza granulata with the GG Genome
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Time of Liver Function Abnormal Identification on Prediction of the Risk of Anti-tuberculosis-induced Liver Injury
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作者 Deliang Huang Jinghan Peng +5 位作者 Lin Lei Yuanyuan Chen Zhibing Zhu Qingxian Cai Yongcong Deng Jun Chen 《Journal of Clinical and Translational Hepatology》 SCIE 2023年第2期425-432,共8页
Background and Aims:Anti-tuberculosis(anti-TB)druginduced liver injury(AT-DILI)is the most common side effect in patients who received anti-TB therapy.AT-DILI management includes monitoring liver function until sympto... Background and Aims:Anti-tuberculosis(anti-TB)druginduced liver injury(AT-DILI)is the most common side effect in patients who received anti-TB therapy.AT-DILI management includes monitoring liver function until symptoms arise in patients without high-risk factors for liver damage.The present study aimed to investigate the effect of liver function test(LFT)abnormal identification on the risk of DILI,including liver failure and anti-TB drug resistance in patients without high-risk factors.Methods:A total of 399 patients without high-risk factors for liver damage at baseline and who experienced LFT abnormal during the 6 months of first-line anti-TB treatment were enrolled.The Roussel Uclaf Causal Relationship Assessment Method(RUCAM,2016)was applied in suspected DILI.The correlations between the time of LFT abnormal identification and DILI,liver failure,and anti-TB drug resistance were analyzed by smooth curve fitting and multivariable logistic regression models.Results:Among all study patients,131 met the criteria for DILI with a mean RUCAM causality score of 8.86±0.63.26/131 and 105/131 were in the probable grading and highly probable grading,respectively.The time of abnormal LFT identification was an independent predictor of DILI,liver failure,and anti-TB drug resistance in the crude model and after adjusting for other risk patient factors.The time of abnormal LFT identification was positively correlated with DILI,liver failure,and anti-TB drug resistance.The late identification group(>8 weeks)had the highest risk of DILI,followed by liver failure compared with the other two groups.Conclusions:The time to identification of LFT was positively correlated with DILI,liver failure,and anti-TB drug resistance.The risk of DILI and liver failure was significantly increased in the late identification group with abnormal LFT identified after 8 weeks compared with 4 and 8 weeks.Early monitoring of LFT is recommended for patients without the high-risk factor of DILI after anti-TB treatment is initiated. 展开更多
关键词 Liver function abnormal identification time Anti-tuberculosis induced liver injury Liver failure RUCAM causality scale
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Functional Analysis of Nodulin-like Promoter in Transgenic Cotton Plants 被引量:3
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作者 Mao-Zhi REN Quan-Jia CHEN +2 位作者 Li LI Rui ZHANG San-Dui GUO 《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2005年第10期1254-1259,共6页
For the first time, a nodulin-like gene promoter was isolated from Gossypium hirsutum L. Guo Y 18 by means of inverse PCR. Three plant expression vectors were constructed for functional identification of the promoter.... For the first time, a nodulin-like gene promoter was isolated from Gossypium hirsutum L. Guo Y 18 by means of inverse PCR. Three plant expression vectors were constructed for functional identification of the promoter. These vectors were different only in promoter regions; three truncations of the nodulinlike promoter took the place of the CaMV35S promoter in the pBI 121 plant expression vector. Then, the three vectors were introduced into cotton plants via the pollen tube pathway. The expression patterns of the gus gene driven by nodulin-like promoter truncations were investigated in the offspring of transgenic cotton plants. Histochemical GUS staining and fluorescence quantitative analysis were performed to achieve this goal. The results showed that the nodulin-like promoter was a strong, highly reproductive organspecific promoter, which demonstrated a much higher driver activity than the CaMV35S promoter did in cotton reproductive organs, but relatively lower activity in vegetation. Identification of the speciality and strength-determining regions of the nodulin-like promoter was also undertaken. 展开更多
关键词 cotton plant functional identification nodulin-like promoter predominant expression reproductive organ.
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THE COMPUTATION OF PARTIAL COHERENCE FUNCTION APPLIED FOR SOUND SOURCE IDENTIFICATION
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《Chinese Journal of Acoustics》 1989年第3期254-260,共7页
In this paper, a new method is applied to get the computation formula of partial coherence function. The main attention is paid to the computation formula of the partial coherence function with three and four signals.... In this paper, a new method is applied to get the computation formula of partial coherence function. The main attention is paid to the computation formula of the partial coherence function with three and four signals. The advantages of the method discussed in the paper are clear in physical meaning and easy to compute at the end of the paper,the application of the method to the identification of an air compressor noise source is presented and the results are satisfactory. 展开更多
关键词 THE COMPUTATION OF PARTIAL COHERENCE FUNCTION APPLIED FOR SOUND SOURCE identification
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Cloning,expression and activity analysises of chalcone synthase genes in Carthamus tinctorius
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作者 Xiaohui Tang Chaoxiang Ren +6 位作者 Jing Hu Jiang Chen Jie Wang Rui Wang Qinghua Wu Wan Liao Jin Pei 《Chinese Herbal Medicines》 CAS 2023年第2期291-297,共7页
Objective:Flavonoids are the bioactive compounds in safflower(Carthamus tinctorius),in which chalcone synthase(CHS)is the first limiting enzyme.However,it is unclear that which chalcone synthase genes(CHSs)are partici... Objective:Flavonoids are the bioactive compounds in safflower(Carthamus tinctorius),in which chalcone synthase(CHS)is the first limiting enzyme.However,it is unclear that which chalcone synthase genes(CHSs)are participated in flavonoids biosynthesis in C.tinctorius.In this study,the CHSs in the molecular characterization and enzyme activities were investigated.Methods:Putative chalcone biosynthase genes were screened by the full-length transcriptome sequences data in C.tinctorius.Chalcone biosynthase genes in C.tinctorius(CtCHSs)were cloned from cDNA of flowers of C.tinctorius.The cloned gene sequences were analyzed by bioinformatics,and their expression patterns were analyzed by real-time PCR(RT-PCR).The protein of CtCHS in the development of flowers was detected by polyclonal antibody Western blot.A recombinant vector of CtCHS was constructed.The CtCHS recombinant protein was induced and purified to detect the enzyme reaction(catalyzing the reaction of p-coumaryl-CoA and malonyl-CoA to produce naringin chalcone).The reaction product was detected by HPLC and LC-MS.Results:Two full-length CtCHS genes were successfully cloned from the flowers of safflower(CtCHS1 and CtCHS3),with gene lengths of 1525 bp and 1358 bp,respectively.RT-PCR analysis showed that both genes were highly expressed in the flowers,but the expression of CtCHS1 was higher than that of CtCHS3 at each developmental stage of the flowers.WB analysis showed that only CtCHS1 protein could be detected at each developmental stage of the flowers.HPLC and LC-MS analyses showed that CtCHS1 could catalyze the conversion of p-coumaryl-CoA and malonyl-CoA substrates to naringin chalcone.Conclusion:CtCHS1 is involved in the biosynthesis of naringin chalcone in safflower. 展开更多
关键词 Carthamus tinctorius L. chalcone synthase expression analysis FLAVONOIDS functional identification gene cloning SAFFLOWER
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