pBAD102/D-TOPO大腸桿菌表達(dá)載體;誘導(dǎo)表達(dá)載體;BioVector NTCC質(zhì)粒載體菌種細(xì)胞基因保藏中心
- 價(jià) 格:¥8920
- 貨 號(hào): pBAD102/D-TOPO.coli
- 產(chǎn) 地:北京
- BioVector NTCC典型培養(yǎng)物保藏中心
- 聯(lián)系人:Dr.Xu, Biovector NTCC Inc.
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| 出品公司: | BioVector NTCC質(zhì)粒載體菌種細(xì)胞基因保藏中心 |
|---|---|
| 載體名稱: | pBAD102/D-TOPO |
| 質(zhì)粒類型: | 大腸桿菌表達(dá)載體;誘導(dǎo)表達(dá)載體 |
| 高拷貝/低拷貝: | 低拷貝 |
| 克隆方法: | TOPO-TA |
| 啟動(dòng)子: | araBAD |
| 載體大小: | 44471 bp |
| 5' 測(cè)序引物及序列: | TrxFus Forward: 5′-TTCCTCGACGCTAACCTG-3′ |
| 3' 測(cè)序引物及序列: | pBAD Reverse 5′-GATTTAATCTGTATCAGG-3′ |
| 載體標(biāo)簽: | 6x His Tag(C-端),V5 Epitope Tag(C-端);Thioredoxin(N-端),EK 切割位點(diǎn) |
| 載體抗性: | 氨芐青霉素(Ampicillin) |
| 克隆菌株: | TOP10 |
| 表達(dá)菌株: | 推薦LMG194 |
| 備注: | pBAD102/D-TOPO載體是阿拉伯糖調(diào)控載體,在無葡萄糖的培養(yǎng)基中,阿拉伯糖正向調(diào)控目的基因的表達(dá); 通過調(diào)節(jié)阿拉伯糖的濃度水平來優(yōu)化目的蛋白的可溶性表達(dá); 采用TOPO-TA技術(shù),只用5分鐘即可將PCR片段連接到載體上去; pBAD102/D-TOPO載體表達(dá)硫氧還蛋白(Thioredoxin)融合蛋白,硫氧還蛋白的存在促進(jìn)目的蛋白的可溶性,尤其對(duì)于溶解性差的蛋白來說,是良好的選擇。 |
| 產(chǎn)品目錄號(hào): | K4202-01 |
| 穩(wěn)定性: | 穩(wěn)表達(dá) |
| 組成型/誘導(dǎo)型: | 誘導(dǎo)型(阿拉伯糖) |
| 病毒/非病毒: | 非病毒 |
載體質(zhì)粒圖譜和多克隆位點(diǎn)信息
載體簡(jiǎn)介
Using restriction enzymes to clone your gene into an expression vector often forces you to compromise the final sequence of your insert (Figure 1A), especially when there are no useful restriction sites close to your genes coding sequence. This may result in suboptimal spacing of expression elements or incorporation of non-native amino acid residues, which can reduce your expression levels and/or cause the production of non-functional protein.In addition to being a more effective way to clone, TOPO Cloning eliminates these potential expression problems. TOPO Expression Vectors enable you to insert the exact DNA sequence you require simply by performing PCR with appropriately designed primers. Your PCR product is cloned at a high efficiency in only five minutes into a topoisomerase I-activated expression vector. The resulting recombinant expression vector contains your exact DNA sequence without any non-coding regions.Many of Invitrogen's powerful expression vectors are available adapted for one-step TOPO cloning and expression of PCR products. In addition, several expression vectors are now adapted for Directional TOPO Cloning, enabling you to use proofreading polymerases and to clone your PCR products in a specific orientation.簡(jiǎn)介The pBAD Directional TOPO Expression Kit utilizes a highly efficient, 5-minute cloning strategy ("TOPO Cloning") to directionally clone a blunt-end PCR product into a vector for soluble, regulated expression and simplified protein purification in E. coli. Blunt-end PCR products clone directionally at greater than 90% efficiency with no ligase, post-PCR procedures, or restriction enzymes required. In addition, pBAD202/D-TOPO vector contains the His-Patch (HP) thioredoxin leader for increased translation efficiency and solubility of recombinant fusion proteins. Expression in E. coli is driven by the araBAD promoter (PBAD). The AraC gene product encoded on the pBAD202/D-TOPO vector positively regulates this promoter.pBAD202/D-TOPO 載體特征pBAD202/D-TOPO is designed to facilitate rapid, directional TOPO Cloning of blunt-end PCR products for regulated expression in E. coli. Features of the vector include: araBAD promoter (PBAD) for tight, dose-dependent regulation of heterologous gene expression N-terminal His-Patch thioredoxin for increased translation efficiency and solubility of heterologous proteins Directional TOPO Cloning site for rapid and efficient directional cloning of a blunt-end PCR product C-terminal fusion tag for detection and purification of recombinant fusion proteins Kanamycin resistance gene for selection in E. coli araC gene encoding a regulatory protein for tight regulation of the PBAD promoter pUC origin for maintenance in E. coli.Note: Although the pBAD202/D-TOPO vector contains a pUC origin, they act as lowcopynumber plasmids, resulting in lower yields of the vectors.L-阿拉伯糖調(diào)控表達(dá)In the presence of arabinose, expression from PBAD is induced while only very low levels of transcription are observed from PBAD in the absence of arabinose (Lee, 1980; Lee et al., 1987). Uninduced levels are repressed even further by growth in the presence of glucose (0.1% to 0.2%). Glucose reduces the levels of 3′, 5′-cyclic AMP, lowering expression from the catabolite-repressed PBAD promoter (Miyada et al., 1984). By varying the concentration of arabinose, protein expression levels can be optimized to ensure maximum expression of protein. In addition, the tight regulation of PBAD by AraC is useful for expression of potentially toxic or essential genes (Carson et al., 1991; Dalbey and Wickner, 1985; Guzman et al., 1992; Kuhn and Wickner, 1985; Russell et al., 1989; San Millan et al., 1989). For more information on the mechanism of expression and repression of the ara regulon, see page 33 or refer to Schleif, 1992.硫氧還蛋白The 11.7 kDa thioredoxin protein is found in yeast, plants, and mammals, as well as in bacteria. It was originally isolated from E. coli as a hydrogen donor for ribonuclease reductase (see Holmgren, 1985 for a review). The gene has been completely sequenced (Wallace and Kushner, 1984). The protein has been crystallized and its three-dimensional structure determined (Katti et al., 1990). When overexpressed in E. coli, thioredoxin is able to accumulate to approximately 40% of the total cellular protein and still remains soluble. When used as a fusion partner, thioredoxin can increase translation efficiency and, in some cases, solubility of eukaryotic proteins expressed in E. coli. Examples of eukaryotic proteins that have been produced as soluble C-terminal fusions to the thioredoxin protein in E. coli (LaVallie et al., 1993) include: Murine interleukin-2 Human interleukin-3 Murine interleukin-4 Murine interleukin-5 Human macrophage colony stimulating factor Murine steel factor Murine leukemia inhibitory factor Human bone morphogenetic protein-2HP-硫氧還蛋白The thioredoxin protein has been mutated to contain a metal binding domain, and is termed “His-Patch thioredoxin”. To create a metal binding domain in the thioredoxin protein, the glutamate residue at position 32 and the glutamine residue at position 64 were mutated to histidine residues. When His-Patch thioredoxin folds, the histidines at positions 32 and 64 interact with a native histidine at position 8 to form a “patch”. This histidine patch has been shown to have high affinity for divalent cations (Lu et al., 1996). His-Patch thioredoxin (HP-thioredoxin) proteins can therefore be purified on metal chelating resins (e.g. ProBond).How Directional TOPO Cloning WorksTopoisomerase I from Vaccinia virus binds to duplex DNA at specific sites and cleaves the phosphodiester backbone after 5-CCCTT in one strand (Shuman, 1991). The energy from the broken phosphodiester backbone is conserved by formation of a covalent bond between the 3 phosphate of the cleaved strand and a tyrosyl residue (Tyr-274) of topoisomerase I. The phospho-tyrosyl bond between the DNA and enzyme can subsequently be attacked by the 5 hydroxyl of the original cleaved strand, reversing the reaction and releasing topoisomerase (Shuman, 1994). TOPO Cloning exploits this reaction to efficiently clone PCR products.Directional TOPO CloningDirectional joining of double-strand DNA using TOPO-charged oligonucleotides occurs by adding a 3 single-stranded end (overhang) to the incoming DNA (Cheng and Shuman, 2000). This single-stranded overhang is identical to the 5end of the TOPO-charged DNA fragment. At Invitrogen, this idea has been modified by adding a 4 nucleotide overhang sequence to the TOPO-charged DNA and adapting it to a ‘whole vector’ format.In this system, PCR products are directionally cloned by adding four bases to the forward primer (CACC). The overhang in the cloning vector (GTGG) invades the 5 end of the PCR product, anneals to the added bases, and stabilizes the PCR product in the correct orientation. Inserts can be cloned in the correct orientation with efficiencies equal to or greater than 90%.
載體序列
AAGAAACCAATTGTCCATATTGCATCAGACATTGCCGTCACTGCGTCTTTTACTGGCTCTTCTCGCTAAC CAAACCGGTAACCCCGCTTATTAAAAGCATTCTGTAACAAAGCGGGACCAAAGCCATGACAAAAACGCGT AACAAAAGTGTCTATAATCACGGCAGAAAAGTCCACATTGATTATTTGCACGGCGTCACACTTTGCTATG CCATAGCATTTTTATCCATAAGATTAGCGGATCCTACCTGACGCTTTTTATCGCAACTCTCTACTGTTTC TCCATACCCGTTTTTTTGGGCTAGAAATAATTTTGTTTAACTTTAAGAAGGAGATATACATACCCATGGG ATCTGATAAAATTATTCATCTGACTGATGATTCTTTTGATACTGATGTACTTAAGGCAGATGGTGCAATC CTGGTTGATTTCTGGGCACACTGGTGCGGTCCGTGCAAAATGATCGCTCCGATTCTGGATGAAATCGCTG ACGAATATCAGGGCAAACTGACCGTTGCAAAACTGAACATCGATCACAACCCGGGCACTGCGCCGAAATA TGGCATCCGTGGTATCCCGACTCTGCTGCTGTTCAAAAACGGTGAAGTGGCGGCAACCAAAGTGGGTGCA CTGTCTAAAGGTCAGTTGAAAGAGTTCCTCGACGCTAACCTGGCCGGCTCTGGATCCGGTGATGACGATG ACAAGCTGGGAATTGATCCCTTCACCAAGGGCGAGCTCAAGCTTGAAGGTAAGCCTATCCCTAACCCTCT CCTCGGTCTCGATTCTACGCGTACCGGTCATCATCACCATCACCATTGAGTTTAAACGGTCTCCAGCTTG GCTGTTTTGGCGGATGAGAGAAGATTTTCAGCCTGATACAGATTAAATCAGAACGCAGAAGCGGTCTGAT AAAACAGAATTTGCCTGGCGGCAGTAGCGCGGTGGTCCCACCTGACCCCATGCCGAACTCAGAAGTGAAA CGCCGTAGCGCCGATGGTAGTGTGGGGTCTCCCCATGCGAGAGTAGGGAACTGCCAGGCATCAAATAAAA CGAAAGGCTCAGTCGAAAGACTGGGCCTTTCGTTTTATCTGTTGTTTGTCGGTGAACGCTCTCCTGAGTA GGACAAATCCGCCGGGAGCGGATTTGAACGTTGCGAAGCAACGGCCCGGAGGGTGGCGGGCAGGACGCCC GCCATAAACTGCCAGGCATCAAATTAAGCAGAAGGCCATCCTGACGGATGGCCTTTTTGCGTTTCTACAA ACTCTTTTGTTTATTTTTCTAAATACATTCAAATATGTATCCGCTCATGAGACAATAACCCTGATAAATG CTTCAATAATATTGAAAAAGGAAGAGTATGAGTATTCAACATTTCCGTGTCGCCCTTATTCCCTTTTTTG CGGCATTTTGCCTTCCTGTTTTTGCTCACCCAGAAACGCTGGTGAAAGTAAAAGATGCTGAAGATCAGTT GGGTGCACGAGTGGGTTACATCGAACTGGATCTCAACAGCGGTAAGATCCTTGAGAGTTTTCGCCCCGAA GAACGTTTTCCAATGATGAGCACTTTTAAAGTTCTGCTATGTGGCGCGGTATTATCCCGTGTTGACGCCG GGCAAGAGCAACTCGGTCGCCGCATACACTATTCTCAGAATGACTTGGTTGAGTACTCACCAGTCACAGA AAAGCATCTTACGGATGGCATGACAGTAAGAGAATTATGCAGTGCTGCCATAACCATGAGTGATAACACT GCGGCCAACTTACTTCTGACAACGATCGGAGGACCGAAGGAGCTAACCGCTTTTTTGCACAACATGGGGG ATCATGTAACTCGCCTTGATCGTTGGGAACCGGAGCTGAATGAAGCCATACCAAACGACGAGCGTGACAC CACGATGCCTGTAGCAATGGCAACAACGTTGCGCAAACTATTAACTGGCGAACTACTTACTCTAGCTTCC CGGCAACAATTAATAGACTGGATGGAGGCGGATAAAGTTGCAGGACCACTTCTGCGCTCGGCCCTTCCGG CTGGCTGGTTTATTGCTGATAAATCTGGAGCCGGTGAGCGTGGGTCTCGCGGTATCATTGCAGCACTGGG GCCAGATGGTAAGCCCTCCCGTATCGTAGTTATCTACACGACGGGGAGTCAGGCAACTATGGATGAACGA AATAGACAGATCGCTGAGATAGGTGCCTCACTGATTAAGCATTGGTAACTGTCAGACCAAGTTTACTCAT ATATACTTTAGATTGATTTAAAACTTCATTTTTAATTTAAAAGGATCTAGGTGAAGATCCTTTTTGATAA TCTCATGACCAAAATCCCTTAACGTGAGTTTTCGTTCCACTGAGCGTCAGACCCCGTAGAAAAGATCAAA GGATCTTCTTGAGATCCTTTTTTTCTGCGCGTAATCTGCTGCTTGCAAACAAAAAAACCACCGCTACCAG CGGTGGTTTGTTTGCCGGATCAAGAGCTACCAACTCTTTTTCCGAAGGTAACTGGCTTCAGCAGAGCGCA GATACCAAATACTGTCCTTCTAGTGTAGCCGTAGTTAGGCCACCACTTCAAGAACTCTGTAGCACCGCCT ACATACCTCGCTCTGCTAATCCTGTTACCAGTGGCTGCTGCCAGTGGCGATAAGTCGTGTCTTACCGGGT TGGACTCAAGACGATAGTTACCGGATAAGGCGCAGCGGTCGGGCTGAACGGGGGGTTCGTGCACACAGCC CAGCTTGGAGCGAACGACCTACACCGAACTGAGATACCTACAGCGTGAGCTATGAGAAAGCGCCACGCTT CCCGAAGGGAGAAAGGCGGACAGGTATCCGGTAAGCGGCAGGGTCGGAACAGGAGAGCGCACGAGGGAGC TTCCAGGGGGAAACGCCTGGTATCTTTATAGTCCTGTCGGGTTTCGCCACCTCTGACTTGAGCGTCGATT TTTGTGATGCTCGTCAGGGGGGCGGAGCCTATGGAAAAACGCCAGCAACGCGGCCTTTTTACGGTTCCTG GCCTTTTGCTGGCCTTTTGCTCACATGTTCTTTCCTGCGTTATCCCCTGATTCTGTGGATAACCGTATTA CCGCCTTTGAGTGAGCTGATACCGCTCGCCGCAGCCGAACGACCGAGCGCAGCGAGTCAGTGAGCGAGGA AGCGGAAGAGCGCCTGATGCGGTATTTTCTCCTTACGCATCTGTGCGGTATTTCACACCGCATATGGTGC ACTCTCAGTACAATCTGCTCTGATGCCGCATAGTTAAGCCAGTATACACTCCGCTATCGCTACGTGACTG GGTCATGGCTGCGCCCCGACACCCGCCAACACCCGCTGACGCGCCCTGACGGGCTTGTCTGCTCCCGGCA TCCGCTTACAGACAAGCTGTGACCGTCTCCGGGAGCTGCATGTGTCAGAGGTTTTCACCGTCATCACCGA AACGCGCGAGGCAGCAGATCAATTCGCGCGCGAAGGCGAAGCGGCATGCATAATGTGCCTGTCAAATGGA CGAAGCAGGGATTCTGCAAACCCTATGCTACTCCGTCAAGCCGTCAATTGTCTGATTCGTTACCAATTAT GACAACTTGACGGCTACATCATTCACTTTTTCTTCACAACCGGCACGGAACTCGCTCGGGCTGGCCCCGG TGCATTTTTTAAATACCCGCGAGAAATAGAGTTGATCGTCAAAACCAACATTGCGACCGACGGTGGCGAT AGGCATCCGGGTGGTGCTCAAAAGCAGCTTCGCCTGGCTGATACGTTGGTCCTCGCGCCAGCTTAAGACG CTAATCCCTAACTGCTGGCGGAAAAGATGTGACAGACGCGACGGCGACAAGCAAACATGCTGTGCGACGC TGGCGATATCAAAATTGCTGTCTGCCAGGTGATCGCTGATGTACTGACAAGCCTCGCGTACCCGATTATC CATCGGTGGATGGAGCGACTCGTTAATCGCTTCCATGCGCCGCAGTAACAATTGCTCAAGCAGATTTATC GCCAGCAGCTCCGAATAGCGCCCTTCCCCTTGCCCGGCGTTAATGATTTGCCCAAACAGGTCGCTGAAAT GCGGCTGGTGCGCTTCATCCGGGCGAAAGAACCCCGTATTGGCAAATATTGACGGCCAGTTAAGCCATTC ATGCCAGTAGGCGCGCGGACGAAAGTAAACCCACTGGTGATACCATTCGCGAGCCTCCGGATGACGACCG TAGTGATGAATCTCTCCTGGCGGGAACAGCAAAATATCACCCGGTCGGCAAACAAATTCTCGTCCCTGAT TTTTCACCACCCCCTGACCGCGAATGGTGAGATTGAGAATATAACCTTTCATTCCCAGCGGTCGGTCGAT AAAAAAATCGAGATAACCGTTGGCCTCAATCGGCGTTAAACCCGCCACCAGATGGGCATTAAACGAGTAT CCCGGCAGCAGGGGATCATTTTGCGCTTCAGCCATACTTTTCATACTCCCGCCATTCAGAG
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