首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 15 毫秒
1.
Excision from the chromosome is the first step during the transfer of conjugative transposons (CTns) to a recipient. We previously showed that the excision of CTnDOT is more complex than the excision of lambdoid phages and CTns such as Tn916. The excision in vivo of CTnDOT utilizes four CTnDOT-encoded proteins, IntDOT, Xis2c, Xis2d, and Exc, and a host factor. We previously developed an in vitro excision reaction where the recombination sites attL and attR were located on different plasmids. The reaction was inefficient and did not require Exc, suggesting that the reaction conditions did not mimic in vivo conditions. Here, we report the development of an intramolecular excision reaction where the attL and attR sites are located on the same DNA molecule. We found that Exc stimulates the reaction 3- to 5-fold. The efficiency of the excision reaction was also dependent on the distance between the attL and attR sites and on the sequences of the overlap regions between the sites of the strand exchanges. Substrates with identical overlap sequences recombined more efficiently than ones with heterologous overlap sequences. This was surprising, because the integration reaction is not sensitive to heterology in the overlap regions of the attDOT and attB sites.  相似文献   

2.
目的:研究转录因子DREB1A在植物抗渗透胁迫反应中的作用,并探讨利用Gateway克隆技术构建植物表达载体的方法。方法:根据GenBank中登录的DREB1A基因的全长mRNA序列设计引物,克隆了拟南芥的转录因子DREBIA基因。根据Gateway克隆技术的要求,设计含有attB接头的引物,利用高保真的PlatinumpfxDNA聚合酶,通过PCR方法在克隆基因的两端加上B序列。通过BP反应将包含有attB接头的PCR产物克隆到含有attP的donor载体上以产生Entry克隆,通过LR反应将已经重组入Entry载体的DREB1A基因再克隆到pH2GW7双元载体。结果:对重组载体pH2GW7-DREB1A的鉴定结果表明成功构建了DREB1A基因的植物表达载体。结论:利用Gateway克隆技术构建植物表达载体简便易行,该结果为遗传转化研究奠定了基础。  相似文献   

3.
Tn5397 is a conjugative transposon, originally isolated from Clostridium difficile. The Tn5397 transposase TndX is related to the phage-encoded serine integrases and the Clostridium perfringens Tn4451 transposase TnpX. TndX is required for the insertion and excision of the transposon. Tn5397 inserts at one locus, attB(Cd), in C. difficile but at multiple sites in Bacillus subtilis. Apart from a conserved 5' GA dinucleotide at the recombination site, there appears to be little sequence conservation between the known target sites. To test the target site preference of Tn5397, attB(Cd) was introduced into the B. subtilis genome. When Tn5397 was transferred into this strain, 100% of the 50 independent transconjugants tested had Tn5397 inserted into attB(Cd). This experiment was repeated using a 50-bp attB(Cd) with no loss of target preference. The mutation of the 5' GA to 5' TC in the attB(Cd) target site caused a switch in the polarity of insertion of Tn5397, which is consistent with this dinucleotide being at the crossover site and in keeping with the mechanism of other serine recombinases. Tn5397 could also transpose into 50-bp sequences encoding the end joints attL and attR but, surprisingly, could not recombine into the circular joint of Tn5397, attTn. Purified TndX was shown to bind specifically to 50-bp attB(Cd), attL, attR, attTn, and attB(Bs)(3) with relative binding affinities attTn approximately attR > attL > attB(Cd) > attB(Bs3). We conclude that TndX has a strong preference for attB(Cd) over other potential recombination sites in the B. subtilis genome and therefore behaves as a site-specific recombinase.  相似文献   

4.
Bacteriophage C31 encodes an integrase, which acts on the phage and host attachment sites, attP and attB, to form an integrated prophage flanked by attL and attR. In the absence of accessory factors, C31 integrase cannot catalyse attL x attR recombination to excise the prophage. To understand the mechanism of directionality, mutant integrases were characterized that were active in excision. A hyperactive integrase, Int E449K, gained the ability to catalyse attL x attR, attL x attL and attR x attR recombination whilst retaining the ability to recombine attP x attB. A catalytically defective derivative of this mutant, Int S12A, E449K, could form stable complexes with attP/attB, attL/attR, attL/attL and attR/attR under conditions where Int S12A only complexed with attP/attB. Further analysis of the Int E449K-attL/attR synaptic events revealed a preference for one of the two predicted synapse structures with different orientations of the attL/attR sites. Several amino acid substitutions conferring hyperactivity, including E449K, were localized to one face of a predicted coiled-coil motif in the C-terminal domain. This work shows that a motif in the C-terminal domain of C31 integrase controls the formation of the synaptic interface in both integration and excision, possibly through a direct role in protein-protein interactions.  相似文献   

5.
The genome of the Streptomyces temperate phage phiC31 integrates into the host chromosome via a recombinase belonging to a novel group of phage integrases related to the resolvase/invertase enzymes. Previously, it was demonstrated that, in an in vitro recombination assay, phiC31 integrase catalyses integration (attP/attB recombination) but not excision (attL/attR). The mechanism responsible for this recombination site selectivity was therefore investigated. Purified integrase was shown to bind with similar apparent binding affinities to between 46 bp and 54 bp of DNA at each of the attachment sites, attP, attB, attL and attR. Assays using recombination sites of 50 bp and 51 bp for attP and attB, respectively, showed that these fragments were functional in attP/attB recombination and maintained strict site selectivity, i.e. no recombination between non-permissive sites, such as attP/attP, attB/attL, etc., was observed. Using bandshifts and supershift assays in which permissive and non-permissive combinations of att sites were used in the presence of integrase, only the attP/attB combination could generate supershifts. Recombination products were isolated from the supershifted complexes. It was concluded that these supershifted complexes contained the recombination synapse and that site specificity, and therefore directionality, is determined at the level of stable synapse formation.  相似文献   

6.
Integrative recombination between specific attachment (att) regions of the bacteriophage lambda genome (attP) and the Escherichia coli genome (attB) results in a prophage flanked by the hybrid recombinant sites attL and attR. Each att site contains sequences to which proteins involved in recombination bind. Using site-directed mutagenesis, we have constructed a related set of point mutations within each of the five Int "arm-type" binding sites located within attP, attL and attR. Footprint analyses of binding demonstrate that mutating the arm-type sites significantly disrupts the binding of Int. Recombination analyses of mutant att sites in vivo and in vitro demonstrate that only three wild-type arm-type sites within attP are required for efficient integrative recombination. Similar analyses demonstrate that efficient excision can occur with two other different sets of wild-type arm-type sites in attL and attR. These results demonstrate that integrative and excisive recombination may involve interactions of Int with distinct and different subsets of arm-type sites.  相似文献   

7.
Temperate Myxococcus xanthus phage Mx8 integrates into the attB locus of the M. xanthus genome. The phage attachment site, attP, is required in cis for integration and lies within the int (integrase) coding sequence. Site-specific integration of Mx8 alters the 3' end of int to generate the modified intX gene, which encodes a less active form of integrase with a different C terminus. The phage-encoded (Int) form of integrase promotes attP x attB recombination more efficiently than attR x attB, attL x attB, or attB x attB recombination. The attP and attB sites share a common core. Sequences flanking both sides of the attP core within the int gene are necessary for attP function. This information shows that the directionality of the integration reaction depends on arm sequences flanking both sides of the attP core. Expression of the uoi gene immediately upstream of int inhibits integrative (attP x attB) recombination, supporting the idea that uoi encodes the Mx8 excisionase. Integrase catalyzes a reaction that alters the primary sequence of its gene; the change in the primary amino acid sequence of Mx8 integrase resulting from the reaction that it catalyzes is a novel mechanism by which the reversible, covalent modification of an enzyme is used to regulate its specific activity. The lower specific activity of the prophage-encoded IntX integrase acts to limit excisive site-specific recombination in lysogens carrying a single Mx8 prophage, which are less immune to superinfection than lysogens carrying multiple, tandem prophages. Thus, this mechanism serves to regulate Mx8 site-specific recombination and superinfection immunity coordinately and thereby to preserve the integrity of the lysogenic state.  相似文献   

8.
Gateway克隆技术已得到广泛的应用。该技术先通过BP反应将目标片段连到带有完整attL特异识别位点的入门载体,然后与终载体通过LR反应得到表达载体。Gateway克隆方法与传统的酶切连接方法相比有快速简单等优点。但是,BP和LR酶都非常昂贵。本研究首先对3个常用Gateway载体的atts特异位点序列比对发现,attL序列核心交换位点“core attL”的21~22 bp长的碱基是保守和必要的。由此,设计含有core-attL序列的引物,通过PCR克隆得到DNA片段并连入pMD18-T载体,然后进行LR反应,可成功得到目标表达载体,并在保守的位点上正确重组。本研究还对其中一个带有绿色荧光蛋白基因的表达载体转化至烟草,能够正常表达该蛋白质。结果表明,通过将含有attL核心位点基因片段连接到pMD18-T载体上,可以省略BP反应而将目标片段连接到终载体上,节约了反应时间和成本。  相似文献   

9.
重组阳离子抗肿瘤肽AIK的原核表达、纯化及活性测定   总被引:2,自引:0,他引:2  
利用Gateway克隆技术构建重组抗瘤肽AIK的原核表达体系,建立表达及纯化重组AIK的最优条件,为深入研究和利用AIK奠定基础。首先,设计含AttB重组位点的引物,通过重叠PCR技术扩增出Att B-TEV-FLAG-AIK序列,利用BP重组反应将目的序列TEV-FLAG-AIK克隆到供体载体pDONR223中,构建入门载体,再通过LR重组反应,将目的序列转移到目的载体pDEST15中,构建GST-AIK融合蛋白原核表达质粒。随后,在BL21(DE3)工程菌中优化诱导融合蛋白表达的条件。以谷胱甘肽磁珠纯化GST-AIK融合蛋白,再以rTEV酶切除GST,获得FLAG-AIK重组蛋白。最后以MTS法检测FLAG-AIK对白血病细胞HL-60的细胞毒性。菌液PCR验证和测序分析表明成功构建了重组抗瘤肽AIK的入门质粒和原核表达质粒。在BL21(DE3)工程菌中实现了GST-AIK融合蛋白的高效可溶性表达。并测得在37℃下以0.1 mmol/L IPTG诱导工程菌(OD600=1.0)4 h,重组蛋白表达量占菌体总蛋白的30%以上。经GST亲和层析、rTEV酶切除GST标签及二次GST亲和层析获得纯度高于95%的FLAG-AIK蛋白。MTS法测得所制备的FLAG-AIK蛋白抑瘤活性与化学合成的AIK相当。总之,本课题应用Gateway克隆系统成功构建了抗瘤肽AIK的原核表达质粒,实现了GST-AIK融合蛋白的高效可溶性表达,经亲和层析获得了有生物活性的重组AIK多肽,为后续深入研究和大规模制备奠定了基础。  相似文献   

10.
The nucleotide sequence of the leftmost 2,363 base pairs of the HP1 genome, which includes the attachment site (attP) and the integration region, was determined. This sequence contained an open reading frame encoding a 337-residue polypeptide, which is a member of the integrase family of site-specific recombination proteins as judged by sequence comparison. The open reading frame was located immediately adjacent to the att site and was oriented so that initiation of translation would begin distal to the att site and end in its immediate vicinity. Expression of this DNA segment in Escherichia coli provided extracts which promoted site-specific recombination between plasmids containing cloned HP1 attP and Haemophilus influenzae attB sites. This recombination was directional, since no reaction was observed between plasmids containing attR and attL sites. The reaction was stimulated by the accessory protein integration host factor of E. coli. Evidence was also obtained that the integration host factor influenced the levels of HP1 integrase expression. The deduced amino acid sequence of HP1 integrase has remarkable similarity to that deduced for the integrase of coliphage 186.  相似文献   

11.
Temperate phage mv4 integrates its DNA into the chromosome of Lactobacillus delbrueckii subsp. bulgaricus strains via site-specific recombination. Nucleotide sequencing of a 2.2-kb attP-containing phage fragment revealed the presence of four open reading frames. The larger open reading frame, close to the attP site, encoded a 427-amino-acid polypeptide with similarity in its C-terminal domain to site-specific recombinases of the integrase family. Comparison of the sequences of attP, bacterial attachment site attB, and host-phage junctions attL and attR identified a 17-bp common core sequence, where strand exchange occurs during recombination. Analysis of the attB sequence indicated that the core region overlaps the 3' end of a tRNA(Ser) gene. Phage mv4 DNA integration into the tRNA(Ser) gene preserved an intact tRNA(Ser) gene at the attL site. An integration vector based on the mv4 attP site and int gene was constructed. This vector transforms a heterologous host, L. plantarum, through site-specific integration into the tRNA(Ser) gene of the genome and will be useful for development of an efficient integration system for a number of additional bacterial species in which an identical tRNA gene is present.  相似文献   

12.
目的:采用基于attLXattR的入噬茵体位点特异性重组系统的Gateway^TM技术构建人骨形态发生蛋白-2基因重组腺病毒载体(Ad—hBMP-2)。方法:从pcDNA3.1质粒中获取目的基因hBMP-2片段,连入带attL1、attL2位点的入门载体pENTRTM11中,形成入门克隆,将入门克隆与带attR1、attR2位点的目的载体Ad/CMV/V5-DEST在高效重组酶作用下发生体外重组形成表达克隆ad—BMP-2,经鉴定将ad—BMP-2线性化后转入293A细胞包装,通过细胞裂解法获得人骨形态发生蛋白-2的基因重组腺病毒珠Ad-hBMP-2,将其扩增,采用western blotting技术分析目的蛋白表达。结果:经酶切及测序证实目的基因BMP-2片段按正确方向重组入目的载体中,带BMP-2的目的载体在293A细胞中包装成功,获得成熟的病毒颗粒,测得病毒滴度为2.5×10^9pfu/ml,western blotting结果证实Ad—hBMP-2在293A细胞中高效表达hBMP-2蛋白。结论:本实验首次利用基于入噬菌体的位点特异性重组系统的Gateway^TM技术成功构建了Ad—hBMP-2,该技术与传统构建方法比较具有高效性和灵活性,为进一步研究BMP-2的生理功能和利用BMP-2进行骨基因治疗奠定了实验基础。  相似文献   

13.
A M Segall  H A Nash 《The EMBO journal》1993,12(12):4567-4576
Bacteriophage lambda uses site-specific recombination to move its DNA into and out of the Escherichia coli genome. The recombination event is mediated by the recombinase integrase (Int) together with several accessory proteins through short specific DNA sequences known as attachment sites. A gel mobility shift assay has been used to show that, in the absence of accessory proteins, Int can align and hold together two DNA molecules, each with an attachment site, to form stable non-covalent 'bimolecular complexes'. Each attachment site must have both core and arm binding sites for Int to participate in a bimolecular complex. These stable structures can be formed between pairs of attL and attP attachment sites, but cannot include attB or attR sites; they are inhibited by integration host factor (IHF) protein. The bimolecular complexes are shown to represent a synaptic intermediate in the reaction in which Int protein promotes the IHF-independent recombination of two attL sites. These complexes should enable a detailed analysis of synapsis for this pathway.  相似文献   

14.
Parr RD  Ball JM 《Plasmid》2003,49(2):179-183
An optimized donor/shuttle vector, pENTR-His-ccdB, was generated that readily produces a histidine-tagged recombinant protein in multiple expression systems using Gateway Technology. In the current Gateway System, six histidines and the tobacco etch virus protease cleavage site are encoded upstream of the attR1 recombination site such that the histidine-tagged destination/expression vector adds 15 residues to the amino-terminus of recombinant proteins. Our new vector introduces the histidine tag at the donor level and places the multiple cloning sites within the attL recombination sites producing cleavable histidine-tagged proteins with a short, neutral linker of five residues. Two histidine-tagged clones were produced and fusion proteins expressed using the newly engineered vector.  相似文献   

15.
In recent years, restriction-less recombination cloning systems based on site-specific recombinase with high efficiency have been proven to be very successful. Thus, it is desirable to convert existing conventional vectors to recombination vectors. In this report, we describe the conversion of a set of widely used conventional vectors to Gateway recombination expression vectors. An attB cassette flanked by several restriction enzyme sites was inserted in a cloning vector, and then subcloned into existing vectors to be converted to construct intermediate vectors containing the attB cassette, which were then converted to recombination expression vectors by in vitro recombination. The intermediate vectors generated in this study can be used for releasing the attB cassette to convert other vectors using the same protocol described here. With the increasing number of recombination vectors constructed with this protocol, the likeliness of releasing the attB cassette from an existing vector, rather than synthesizing it with PCR, will increase. The final expression vectors can also be used for releasing the attR cassette for constructing new vectors.  相似文献   

16.
目的:构建以木糖异构酶基因xylA为筛选标记的无抗生素标记Gateway系统植物表达载体。方法:克隆大肠杆菌木糖异构酶基因xylA并用其替换植物表达载体pCAMBIA1301中的hpt基因,利用载体中的多克隆位点将Gateway Binary Vector(pH7WG2D)中酶切位点XbaⅠ和HindⅢ之间包括P35S、T35S、attR1、attR2和CmR-ccdB的片段重组入表达载体pCAMBIA1301中,构建表达载体pCAMBIA1301-xylA-GW,利用含有津田芜菁HY5基因片段的BP反应产物与载体进行LR反应,获得含有目的基因的植物表达载体pCAMBIA1301-xylA-HY5,并导入根癌农杆菌LBA4404中。结果:抗生素筛选及酶切和PCR鉴定表明成功构建了以xylA为筛选标记的无抗生素标记植物表达载体pCAMBIA1301-xylA-HY5。结论:利用木糖异构酶基因xylA结合Gateway克隆技术构建无抗生素标记植物表达载体,可简化、方便植物转基因表达载体构建。  相似文献   

17.
A Gateway-based platform for multigene plant transformation   总被引:2,自引:0,他引:2  
The post-genomic era offers unrivalled opportunities for genetic manipulation of polygenic traits, multiple traits, and multiple gene products. However, remaining technical hurdles make the manipulation of multiple genes in plants difficult. Here we describe a Gateway-based vector system to enable multiple transgenes to be directly linked or fused. The vector system consists of a destination vector and two special attL-flanked entry vectors each containing an attR cassette incompatible with the attL. By multiple rounds of LR recombination reactions, which we call MultiRound Gateway, multiple transgenes can be delivered sequentially and indefinitely into the Gateway-compatible destination vector through alternate use of the two special entry vectors. In our proof-of-principle experiments we have used this vector system to construct a plant transformation vector containing seven functional DNA fragments, including a screening marker gene, two reporter genes and four matrix attachment region sequences. This system provides a platform for fully realizing the potential of plant genetic manipulation.Electronic Supplementary Material Supplementary material is available to authorised users in the online version of this article at .  相似文献   

18.
The P2 Cox protein is known to repress the Pc promoter, which controls the expression of the P2 immunity repressor C. It has also been shown that Cox can activate the late promoter PLL of the unrelated phage P4. By this process, a P2 phage infecting a P4 lysogen is capable of inducing replication of the P4 genome, an example of viral transactivation. In this report, we present evidence that Cox is also directly involved in both prophage excision and phage integration. While purified Cox, in addition to P2 Int and Escherichia coli integration host factor, was required for attR x attL (excisive) recombination in vitro, it was inhibitory to attP x attB (integrative) recombination. The same amounts of Int and integration host factor which mediated optimal excisive recombination in vitro also mediated optimal integrative recombination. We quantified and compared the relative efficiencies of attB, attR, and attL in recombination with attP and discuss the functional implications of the results. DNase I protection experiments revealed an extended 70-bp Cox-protected region on the right arm of attP, centered at about +60 bp from the center of the core sequence. Gel shift assays suggest that there are two Cox binding sites within this region. Together, these data support the theory that in vivo, P2 can exert control over the direction of recombination by either expressing Int alone or Int and Cox together.  相似文献   

19.
Mx8 is a generalized transducing phage that infects Myxococcus xanthus cells. This phage is lysogenized in M. xanthus cells by the integration of its DNA into the host chromosome through site-specific recombination. Here, we characterize the mechanism of Mx8 integration into the M. xanthus chromosome. The Mx8 attachment site, attP, the M. xanthus chromosome attachment site, attB, and two phage-host junctions, attL and attR, were cloned and sequenced. Sequence alignments of attP, attB, attL, and attR sites revealed a 29-bp segment that is absolutely conserved in all four sequences. The intP gene of Mx8 was found to encode a basic protein that has 533 amino acids and that carries two domains conserved in site-specific recombinases of the integrase family. Surprisingly, the attP site was located within the coding sequence of the intP gene. Hence, the integration of Mx8 into the M. xanthus chromosome results in the conversion of the intP gene to a new gene designated intR. As a result of this conversion, the 112-residue C-terminal sequence of the intP protein is replaced with a 13-residue sequence. A 3-base deletion within the C-terminal region had no effect on Mx8 integration into the chromosome, while a frameshift mutation with the addition of 1 base at the same site blocked integration activity. This result indicates that the C-terminal region is required for the enzymatic function of the intP product.  相似文献   

20.
The temperate bacteriophage phi adh integrates its genome into the chromosomal DNA of Lactobacillus gasseri ADH by a site-specific recombination process. Southern hybridization analysis of BclI-digested genomic DNA from six relysogenized derivatives of the prophage-cured strain NCK102 displayed phage-chromosomal junction fragments identical to those of the lysogenic parent. The phi adh attachment site sequence, attP, was located within a 365-bp EcoRI-HindIII fragment of phage phi adh. This fragment was cloned and sequenced. DNA sequence analysis revealed striking features common to the attachment sites of other site-specific recombination systems: five direct repeats of the sequence TGTCCCTTTT(C/T) and a 14-bp inverted repeat. Oligonucleotides derived from the sequence of the attP-containing fragment enabled us to amplify predicted junction fragment sequences and thus to identify attL, attR, and attB. The core region was defined as the 16-bp sequence TACACTTCTTAGGAGG. Phage-encoded functions essential for site-specific insertion of phage phi adh were located in a 4.5-kb BclI fragment. This fragment was cloned in plasmid pSA34 to generate the insertional vector pTRK182. Plasmid pTRK182 was introduced into L. gasseri NCK102 by electroporation. Hybridization analysis showed that a single copy of pTRK182 had integrated at the attB site of the NCK102 erythromycin-resistant transformants. This is the first site-specific recombination system described in lactobacilli, as well as the first attP-based site-specific integration vector constructed for L. gasseri ADH.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号