睡美人转座子在草鱼CIK细胞中介导的高效基因整合

为研究睡美人(Sleeping Beauty, SB)转座子系统在草鱼(Ctenopharyngodon idellus)肾脏细胞(CIK)中介导的整合特性, 构建了SB转座子和转座酶在两个质粒的二元反式(trans)转座子系统, 以及转座子和转座酶元件在同一个质粒的一元顺式(cis)转座子系统; 通过转染CIK细胞, 用荧光显微镜、流式细胞仪和荧光定量PCR分析了转染2d后及嘌呤霉素筛选4周后的细胞, 测定DsRed转染效率和整合效率, 并结合高效热不对称交互式PCR扩增获得SB转座子整合位点的序列。结果表明, SB二元转座子系统的整合效率远高于一元系统; SB转座子与转座酶比例为1﹕2时, 外源基因DsRed的整合效率最高; SB转座子偏向于插入草鱼基因组TA序列处。研究表明优化SB转座子和转座酶的比例能提高外源基因在草鱼细胞中的整合效率并快速获得突变细胞, 同时为在鱼类细胞中采用SB转座子建立突变体文库提供理论基础。     

mariner转座子pKKma的序列分析及转座性能

摘要:【目的】本研究针对携带mariner转座子的质粒pKKma,进行序列分析和功能注释。【方法】根据已知序列设计引物测定质粒序列。构建转座子突变文库,分析转座子转座效率。【结果】序列分析发现,质粒pKKma全长6879 bp,具有7个开放阅读框。其中,阅读框ORF6编码mariner转座酶(348 aa),属于mariner转座子Himar1转座酶的C9变;pKKma 有2个相同的27 bp的反向重复序列(inverted terminal repeats);阅读框ORF7为庆大霉素抗性基因aacC1,位于转座子反向重复序列之间,与其它mariner转座子可转移序列比 对发现,覆盖率仅为2.0%－47.7%,相应同源程度为3.2%－99.7%,可转移序列具有较大差异。转座效率分析显示,该转座子对于粘质沙雷氏菌的转座效率为(3.1×10－4)－(4.8×10－4),对于弗氏柠檬酸菌的转座效率为(1.3×10－3)－(1.7×10－3)。【结论】质粒pKKma携带一种新的mariner转座子,可在多种细菌中构建转座子文库,研究细菌基因的功能。     

新型二合一PiggyBac转座系统的构建及功能验证*

目的:PiggyBac(PB)转座子是一种可移动的遗传元件,采用“剪切和粘贴”机制在载体和染色体之间进行转座;通过将转座子元件和转座酶表达框整合到一个表达载体中,构建简便易用的二合一PB转座系统。方法:通过聚合酶链式反应(polymerase chain reaction,PCR)获取PiggyBac转座系统所需转座子元件和转座酶表达框,利用T4 DNA连接酶将转座酶表达框插入到pUC18载体上,再利用Gibson同源重组技术将转座子元件与重组载体结合构建二合一PB转座系统;使用该系统携带的增强型绿色荧光蛋白(enhanced green fluorescent protein,EGFP)以及功能性损伤抑制蛋白(damage-suppressing protein,DSUP)检测其有效性及可靠性。结果:在所有筛选获得的嘌呤霉素抗性细胞中,EGFP都是明亮可见;利用此二合一PB转座系统成功获得了可高效表达功能性损伤抑制蛋白的稳定细胞系,证明外源基因可被有效整合到基因组DNA中并表达。结论:成功构建了新型二合一PB转座系统,使稳定表达细胞系的建立更加经济简便。     

piggyBac转座子在牛基因组的整合位点及特征分析

piggyBac(PB)转座子作为一种遗传工具被广泛应用于多个物种的转基因及插入突变研究, 目前PB转座子在牛中的相关研究还较少。为了获得PB转座子在牛基因组中的整合位点, 总结其转座特征, 文章构建了PB[CMV-EGFP]和pcDNA-PBase二元转座系统, 利用细胞核电转技术共转染牛耳组织成纤维细胞, 经G-418筛选, 获得了稳定转染EGFP的转基因细胞系; 提取细胞基因组DNA, 利用基因组步移技术扩增PB转座子5′ Bac区插入位置的DNA序列; 通过与牛基因组序列进行BLAST比对, 得到PB转座子在牛基因组中的插入位点。文章共获得了8个有效的整合位点, 但仅有5个位点定位到染色体1、2、11和X染色体上。序列分析表明：在牛基因组中, PB转座子可特异性的插入到“TTAA”位置, 并整合到基因间的非调控区; 分析整合位点“TTAA”相邻一侧的5个碱基组成, 发现PB转座子5′端倾向于插入到GC(62.5%)碱基富集区。该研究表明, PB转座子可以在牛基因组中发生转座, 获得的整合位点信息为利用PB转座子在牛上开展遗传学研究提供了理论参考。     

根瘤菌共生固氮的遗传学研究(二)

2.在根瘤菌研究中成功地运用了转座子诱变技术。转座子(Transposon)是一种特殊的DNA短片段,它带有抗药性基因,并具有在DNA复制子之间转座插入的能力,转座的发生并不需要recA基因产物,一些转座子象Tn 5的转座插入位点的分布是相当随机的,但另一些象Tn 10,它的转座插入似乎具有“热点”(Hot spot),转座子插入到一个新位点时,被插入位点原基因的连续性受到阻断,因而该基因的功     

α-氨基苄青霉素抗性转座子Tn2在E.coli K12乳糖操纵子Z基因中的插入区域特异性

转座子Tn2是大肠杆菌质粒RSF 1030上一段带有α-氨基苄青霉素抗性基因的DNA序列。这段序列具有转座能力,它能通过不同于一般的DNA重组机理从一个复制子转座到另一个复制子。已知,噬菌体Mu,插入序列IS1、IS2、IS3和抗药性转座子TnA、Tn5、Tn9、Tn10等均能使被插入的基因发生突变。已有报道,不同的转座子在E.coli K12乳糖操纵子Z基因中的插入模式不同。Mu噬菌体在Z基因     

大肠杆菌的一个转座子Tn2981的特性

在复旦大学校园分离到1株带有抗药性质粒pFD13(Sm~RSu~RCm~RTc~RHg~R)的大肠杆菌B7,并在pFD13上发现1个转座子,它带有链霉素(Sm~R)、汞盐(Hg~R)、磺胺嘧啶(Su~R)抗性基因,定名为Tn2981。Tn2981可以从质粒pFD13转座到质粒R144drd3上,也能从质粒转座到大肠杆菌的染色体上。这种转座作用不依赖于宿主细胞reeA的基因产物。经电子显微镜测量质粒pBR322::Tn2981及质粒pBR322的长度,换算后得到Tn2981分子量是12.48×10~6道尔顿,并经限制性内切酶酶切说明它含有6个EeoRI切点。     

转座子Tn233(CH)中转座基因的鉴定和定位

Tn233(CH)是从国内临床分离的耐药痢疾杆菌中找到的一个转座子,已经绘制了它的物理图,它与转座子Tn21基本相同。用限制性内切酶EcoRⅠ和BamHⅠ对带有转座子Tn233(CH)的质粒pBR322::Tn233(CH)进行不完全消化,如此产生的DNA片段经T4 DNA连接酶连接后转化到E.coli C600细胞中,获得了一些保留有转座功能或失去了转座功能的转座子缺失变种。互补试验的结果表明,保留有转座功能的Tn233(CH)缺失变种在反式位置上对失去了转座功能的Tn233(CH)缺失变种有互补作用。对这些缺失变种在DNA上缺失的区域进行限制图分析,确定了转座子Tn233(CH)中转座基因的位置。     

细菌中介导多重耐药的Tn7转座子研究进展

转座子是介导细菌耐药性传播的重要可移动遗传元件。Tn7转座子与细菌耐药密切相关,其携带转座模块和Ⅱ类整合子系统。Tn7编码转座相关蛋白TnsABCDE进行“剪切-粘贴”机制转座,转座核心TnsABC也可与三链DNA或Cas-RNA复合物结合实现转座。近年来新发现了多种介导多重耐药的Tn7转座子,其在介导细菌抗生素、消毒剂和重金属抗性基因的获得、传播扩散等方面发挥了重要作用。本文综述了细菌中Tn7转座子的遗传结构、转座机制、流行以及新发现的介导多重耐药的Tn7转座子,以期为细菌中Tn7转座子的深入研究提供参考。     

转座因子在肺炎链球菌耐药进化中的作用

要肺炎链球菌的耐药决定子由染色体上的转座因子携带,与耐药相关的转座因子和转移的主要方式有：①接合转座子：携带erm(B)、tet(M)和aphA-3等的Tn916-Tn1545家族,通过接合转移;②缺陷转座子：携带mef基因及ABC外排系统的Tn1207．1和mega插入元件,可转化到敏感菌株引起耐药;③复合转座子：由mega插入元件与Tn916整合产生的Tn2009,以转化方式转移。肺炎链球菌通过转座因子获得并传播耐药基因,在其耐药进化中起重要作用。     

Molecular cloning into Tn5 and integration in the Pseudomonas aeruginosa chromosome: a tool for heterologous gene expression

The DNA primase gene of the promiscuous IncP-1 conjugative plasmid RP1, encoding two polypeptides of 118 and 80 kDa, was inserted into the transposon Tn5 in Escherichia coli. The derivative transposon, Tn2523, was then transposed to a temperature-sensitive replication mutant of the promiscuous IncP-1 conjugative plasmid R68 at permissive temperature and the plasmid transferred to Pseudomonas aeruginosa strain PAO. The latter strain was then grown at non-permissive temperature to identify transposition of Tn2523 into the P. aeruginosa chromosome. Immunological and enzymic analysis showed the expression of functional primase polypeptides in the constructed P. aeruginosa strain. This strain also restored wild-type conjugational transfer proficiency, by complementation, to mutants of the IncP-1 plasmid R18 affected in transfer from P. aeruginosa to P. stutzeri or to Acinetobacter calcoaceticus due to transposon Tn7 insertion mutations in the primase gene. This strategy of cloning into a transposon and integration into the bacterial chromosome should facilitate genetic manipulation and studies of gene expression in a range of Gram-negative bacteria.     

遗传稳定型六六六、多菌灵降解基因工程菌构建

通过PCR的方法从六六六降解菌Sphingomonas sp.BHC-A扩增出完整的脱氯化氢酶基因linA.将其克隆到含有mini-Tn5的自杀性质粒pUT4K上,构建成质粒pUT/mini-Tn5-linA.通过三亲杂交,在辅助质粒RK600的帮助下,将pUT/mini-Tn5-linA转移到一株高效降解多菌灵菌株Rhodococcus sp.DJL-6中.利用mini-Tn5的转座作用将linA基因整合到DJL-6的染色体DNA上,得到工程菌株DJL-6A.该工程菌具有同时降解多菌灵和六六六的功能,且对于初始浓度为0.05 μg/mL和5 μg/mL的六六六的降解活性与亲本菌株BHC-A相当.在不加任何选择压力的条件下工程菌株进行连续传代,结果证明linA基因可以持续稳定的存在于宿主的染色体DNA上.     

Construction of transgenic Bacillus mucilaginosus strain with improved phytase secretion

AIMS: To construct a transgenic Bacillus mucilaginosus strain to increase the secretion capability of a wild-type isolate of B. mucilaginosus D4B1 to hydrolyse phytate phosphorus, which can be used as a microbial fertilizer in field application. METHODS AND RESULTS: We constructed a phytase secreting expression vector pSP43 with a mini-Tn5 transposon and a Aspergillus fumigatus phytase expression cassette. The vector pSP43 was successfully transferred into the wild-type B. mucilaginosus using the particle bombardment method, and three transgenic strains with a stable copy of phytase expression cassette integrated into the chromosome of the B. mucilaginosus by Tn5 transposition were selected. The phytase activity of the engineered strains increased 36-46-fold when compared with the wild-type strain of D4B1. CONCLUSIONS: The A. fumigatus phytase gene can be expressed under the direction of p43 promoter in B. mucilaginosus. The expression protein is secreted extracellularly and newly constructed strains showed a high phytase activity. SIGNIFICANCE AND IMPACT OF THE STUDY: A transgenic Bacillus strain by the particle bombardment method was constructed.     

美洲商陆抗真菌蛋白转化烟草的研究和抗病性检测

本研究为美洲商陆抗病毒蛋白(PaAFP)基因首次对植物遗传转化的研究,转入烟草中研究此蛋白对烟草立枯病的抗性。从美洲商陆叶片中获得美洲商陆抗真菌蛋白前体蛋白基因cDNA序列,构建植物表达载体pCAMBIA1300-PaAFP,通过三亲杂交法将其导入根癌农杆菌LBA4404受体菌,转染烟草获得了大量再生转基因植株。PCR、Southern杂交、RT-PCR以及Tris-Tricine-SDS-PAGE检测结果表明目的基因已经整合到烟草基因组中,并且已经得到转译。转基因植株苗期抗立枯病试验表明,转基因烟草植株对立枯丝核菌表现出了抗性。     

A method for construction of E. coli strains with multiple DNA insertions in the chromosome

A system for construction of E. coli strains with multiple DNA insertions in the chromosome, based on elements of modules for site specific recombination of Tn1545 and phage λ, has been developed. Circular non-replicating DNA fragments containing the transposon attachment site (attTn), an excisable cassette with a selectable marker, and a gene of interest integrate randomly into the chromosome of a host E. coli strain when provided with transposon integrase, Int-Tn (the host strain was obtained by insertion of the fragment containing transposon int-Tn gene coding for Int-Tn into the chromosome). Integration of these fragments into the chromosome of int-Tn⁺ cells gives rise to a collection of antibiotic-resistant clones with single insertions at different locations in the chromosome. These insertions are transferred subsequently by P1 transduction into one strain and selected for antibiotic resistance provided by the cassette with the selectable marker. After transduction of each copy, a helper plasmid bearing phage λ xis and int genes is introduced into the cells to excise the drug resistance gene flanked with the λattL and λattR sites from the chromosome. Cells cured of the helper plasmid can undergo the next cycle of P1 transduction/drug resistance gene excision. Each cycle adds another chromosomal copy of the foreign gene. To show the utility of the system, we constructed an E. coli strain bearing several chromosomal copies of lacZ at different locations.     

外源基因在苏云金杆菌染色体上的定点整合及表达

[目的]研究构建稳定表达外源基因、无抗性标记基因的苏云金杆菌(Bacillus thuringiensis简称Bt)工程菌的方法.在构建Bt工程菌时,高拷贝外源质粒的转入导致Bt芽孢数量减少,芽孢形成期延滞,影响Bt菌株的杀虫活力.而且,外源质粒在Bt中的稳定性较差,外源基因容易丢失.将基因整合人染色体是一种构建遗传性状稳定、杀虫活力高的Bt工程菌的有效方法.[方法]本研究采用PCR技术,分两段扩增定位于Bt无晶体突变株XBU001染色体上的trigger factor基因片段作为同源臂,克隆入温度敏感型载体pKSV7,构建了定点整合载体pKTF12.并利用pKTF12质粒将crylAc基因定点整合入XBU001染色体上.[结果]利用载体pKTF12将crylAc定点插入triggerfactor位点,对宿主菌XBU001的正常生长没有影响.重组菌株KCTF12中的crylAc基因能够稳定遗传、表达并形成菱形晶体.与携带高拷贝外源质粒的Bt菌株HTX42相比较,KCTF12具有芽孢数量增多、芽孢形成期提前的优势.[结论]定点整合法是一种构建稳定表达外源基因、无抗性标记基因Bt工程菌的有效方法.     

Establishment of gene transfer systems for and construction of the genetic map of a marine Vibrio strain.

Two gene transfer systems were established for a marine bacterium, Vibrio sp. strain 60. One was generalized transduction with a newly isolated bacteriophage, As3, and the other was conjugal gene transfer by the use of newly constructed transposon-facilitated recombination (Tfr) donors. As3 transduced various chromosomal markers at frequencies of 10(-4) to 10(-6). Tfr donors, which were constructed by introducing transposon Tn10 into both plasmid RP4 and the chromosome, mediated the polarized transfer of chromosomal genes from the sites of Tn10 insertion on the chromosome. By means of these gene transfer systems, a genetic map of the vibrio chromosome was constructed.     

Isolation, characterization, and complementation of a paralyzed flagellar mutant of Rhodobacter sphaeroides WS8.

A paralyzed Rhodobacter sphaeroides mutant strain (PARA1) was isolated by a motility screening procedure following mutagenesis of wild-type R. sphaeroides WS8-N with the transposable element TnphoA (Tn5 IS50L::phoA). PARA1 synthesized a wild-type level of flagellin, as detected by Western immunoblotting with antiflagellar antiserum. Flagellar staining showed that flagellin was assembled into apparently normal external flagellar filaments. Electron micrographs of basal body structures from PARA1 showed that some ring structures that were present were similar to those in wild-type R. sphaeroides WS8-N. PARA1 cells were nonmotile under all growth conditions. No pseudorevertants to motility were seen when PARA1 was grown in the presence of kanamycin to select for the presence of the transposon. The presence of the single copy of TnphoA in the PARA1 chromosome was demonstrated by Southern blotting. Western blotting of cytoplasmic, periplasmic, and membrane fractions of PARA1 with anti-alkaline phosphatase antiserum showed that the transposon had been inserted in-frame into a gene encoding a membrane protein. A SalI restriction endonuclease fragment was cloned from the chromosome of PARA1; this fragment contained a portion of the transposon and R. sphaeroides DNA sequence 5' of the site of insertion. This flanking R. sphaeroides DNA sequence was used to probe an R. sphaeroides WS8 cosmid library. A cosmid designated c19 hybridized to the probe, and a SalI restriction endonuclease fragment derived from this cosmid restored wild-type motility to PARA1 when introduced into this mutant strain by conjugation. The significance of this finding in a bacterium with unidirectionally rotating flagella is discussed.     

呋喃丹降解菌CDS-1的双标记菌株的构建

用Sau3AI消化呋喃丹降解菌Sphingomonassp.CDS-1的基因组DNA,将所得DNA片段与BamHⅠ酶切的启动子探针载体pRobe-GFP酶连后转化E.coliDH5α感受态细胞,在选择性平板上培养,从大约1×104个菌落中筛选到50个含启动子片段的阳性克隆。挑选其中一个发光强度最强的阳性克隆F7,将它的重组质粒pF7用EcoRⅠ和HindⅢ双酶切后得到包含Sphingomonassp.CDS-1启动子和gfp基因的DNA片段,将该片段克隆到广宿主载体pPZP201上,得到pPZP201-gfp质粒。将pPZP201-gfp通过三亲接合转移至Sphingomonassp.CDS-1中得到GFP标记菌株CDS-gfp,经荧光显微镜观察,gfp基因在CDS-gfp中表达量很高。对标记菌株进行连续传代10次(48h/次),发现pPZP201-gfp依然存在,而且发光明显。通过NotⅠ酶切位点把linA基因连接到pUT/mini-Tn5上构建新的转座子载体pUT/mini-Tn5-linA。以pRK600为辅助质粒将pUT/mini-Tn5-linA引入到CDS-1中,linA基因通过转座作用,插入到CDS-gfp的染色体中,得到双标记菌株CDS-GFP-LinA。该菌株是一株能同时降解γ-六六六和呋喃丹的基因工程菌,本研究的结果为研究Sphingomonassp.CDS-1的生态学行为奠定了基础。     

麻疹病毒血凝素基因工程抗原及其抗原性检测(英文)

将麻疹病毒 (Nepal株 )的血凝素 (hemagglutinin)基因插入真核表达载体pIRES EGFP ,并在HeLa细胞中表达 .因其较低的表达量 ,所以将其截短 ,去除跨膜区 .使这个截短的HA基因与绿色荧光蛋白基因融合 ,并克隆至原核表达载体pET 2 8b中 .将重组质粒转入大肠杆菌中表达 ,产生了分子量约为 90kD的融合蛋白 .通过ELISA和Western印迹来检测这个基因工程蛋白的抗原性 .在检测一系列的血凝素阳性或阴性的人血清中 ,这个融合蛋白的阳性检出率为 90 % ,阴性检出率为 10 0 % (与市售麻疹病毒诊断试剂盒相比较 ) .由于此HA蛋白是原核表达产物 ,回避了真核表达系统复杂的操作过程和昂贵的费用 ,所以 ,这个麻疹病毒血凝素基因工程抗原有望成为一种新型、便捷的麻疹病毒诊断试剂