Gateway™ Vector Conversion System with One Shot™ ccdB Survival Cells
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Invitrogen™

Gateway™ Vector Conversion System with One Shot™ ccdB Survival Cells

Gateway™ Vector Conversion Systemは、制限エンドヌクレアーゼおよびリガーゼを使用して、任意のベクターをGateway™デスティネーションベクターに変換するように設計されています。ccdB遺伝子(1)とクロラムフェニコール耐性遺伝子に隣接するattR組換え部位を含むGateway™カセットは、あらゆるベクターの複数のクローニング部位に平滑末端でクローニングされます詳細を見る
テクニカルサポートオーダーサポート
製品番号(カタログ番号)数量
118280291 kit
製品番号(カタログ番号) 11828029
価格(JPY)
56,100
線上優惠
Ends: 26-Dec-2025
93,600
割引額 37,500 (40%)
Each
お問い合わせください ›
数量:
1 kit
Gateway™ Vector Conversion Systemは、制限エンドヌクレアーゼおよびリガーゼを使用して、任意のベクターをGateway™デスティネーションベクターに変換するように設計されています。ccdB遺伝子(1)とクロラムフェニコール耐性遺伝子に隣接するattR組換え部位を含むGateway™カセットは、あらゆるベクターの複数のクローニング部位に平滑末端でクローニングされます。Survival 2コンピテントセルを使用すると、ccdB遺伝子を含むGatewayベクターを増殖できます。Gateway™ Vector Conversion Systemは以下を提供します。
• 任意の発現ベクターのGateway™デスティネーションベクターへの変換
• 正しい測定フレーム内でデスティネーションベクターを作成する3つのカセット。各カセットには、カセットを簡単に識別して正しい方向でスクリーニングするための独自の制限部位があります。
研究用にのみ使用できます。診断用には使用いただけません。
仕様
抗生物質耐性菌クロラムフェニコール(CmR)
菌株または酵母株ccdB Survival™ 2
製品タイプベクター変換システム
数量1 kit
クローニング法Gateway™
製品ラインOne Shot
Unit SizeEach
組成および保存条件
Gateway™ Vector Conversion Systemには、Gateway測定フレームカセットA、B、C.1、pENTR -gusポジティブコントロール、およびOne Shot ccdB生存細胞が含まれています。DNAを-20℃で、コンピテントセルを-80℃で保管してください

よくあるご質問(FAQ)

I am using your Gateway conversion kit to adapt my own vector. What is the difference between the A, B, and C reading frame cassettes?

The A, B, and C reading frame cassettes differ by 1 nucleotide each, allowing you to generate attR sites in all 3 reading frames. Each reading frame cassette contains a unique restriction site to allow you to distinguish between them (please see table on Page 3 of the Gateway Vector Conversion System with One Shot ccdB Survival 2 T1R Competent Cells manual).

How large of a PCR product can I recombine with a pDONR vector via BP cloning? Does the same apply for TOPO-adapted Entry vectors?

There is no theoretical limit to insert size for a BP reaction with a pDONR vector. Maximum size tested in-house is 12 kb. TOPO vectors are more sensitive to insert size and 3-5 kb is the upper limit for decent cloning efficiency.

How should I clean up my attB-PCR product?

After generating your attB-PCR product, we recommend purifying it to remove PCR buffer, unincorporated dNTPs, attB primers, and any attB primer-dimers. Primers and primer-dimers can recombine efficiently with the Donor vector in the BP reaction and may increase background after transformation into E. coli, whereas leftover PCR buffer may inhibit the BP reaction. Standard PCR product purification protocols using phenol/chloroform extraction followed by ammonium acetate and ethanol or isopropanol precipitation are not recommended for purification of the attB-PCR product as these protocols generally have exclusion limits of less than 100 bp and do not efficiently remove large primer-dimer products. We recommend a PEG purification protocol (see page 17 of the Gateway Technology with Clonase II manual). If you use the above protocol and your attB-PCR product is still not suitably purified, you may further gel-purify the product. We recommend using the PureLink Quick Gel Extraction kit.

I'm trying to propagate my Gateway destination vector and am not seeing any colonies. What should I do?

Check the genotype of the cell strain you are using. Our Gateway destination vectors typically contain a ccdB cassette, which, if uninterrupted, will inhibit E. coli growth. Therefore, un-cloned vectors should be propagated in a ccdB survival cell strain, such as our ccdB Survival 2 T1R competent cells.

What is the difference between LR Clonase II and LR Clonase II Plus?

LR Clonase II Plus contains an optimized formulation of recombination enzymes for use in MultiSite Gateway LR reactions. LR Clonase and LR Clonase II enzyme mixes are not recommended for MultiSite Gateway LR recombination reactions, but LR Clonase II Plus is compatible with both multi-site and single-site LR recombination reactions.

View all Gateway™ Vector Conversion System with One Shot™ ccdB Survival Cells FAQs

引用および参考文献 (3)

引用および参考文献
Abstract
A modified Gateway cloning strategy for overexpressing tagged proteins in plants.
Authors:Dubin MJ, Bowler C, Benvenuto G,
Journal:Plant Methods
PubMed ID:18211686
'ABSTRACT: BACKGROUND: Recent developments, including the sequencing of a number of plant genomes, have greatly increased the amount of data available to scientists and has enabled high throughput investigations where many genes are investigated simultaneously. To perform these studies, recombinational cloning methods such as the Gateway system have been adapted ... More
Trpm7 regulates cell adhesion by controlling the calcium dependent protease calpain.
Authors:Su LT, Agapito MA, Li M, T N Simonson W, Huttenlocher A, Habas R, Yue L, Runnels LW,
Journal:J Biol Chem
PubMed ID:16436382
'M-calpain is a protease implicated in the control of cell adhesion through focal adhesion disassembly. The mechanism by which the enzyme is spatially and temporally controlled is not well understood, particularly because calpain''s dependence on calcium exceeds the sub-micromolar concentrations normally observed in cells. Here we show that the channel-kinase ... More
High-throughput gateway bicistronic retroviral vectors for stable expression in mammalian cells: exploring the biologic effects of STAT5 overexpression.
Authors:Royer Y, Menu C, Liu X, Constantinescu SN,
Journal:DNA Cell Biol
PubMed ID:15231069
Stable expression of cloned genes in mammalian cells has been achieved in the past by retroviral transduction using bicistronic retroviral vectors. In these vectors, the use of an Internal Ribosome Entry Site (IRES) allows simultaneous expression of a protein of interest and a fluorescence marker. However, traditional cDNA cloning in ... More