Gateway™ BP Clonase™ Enzyme Mix
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Invitrogen™

Gateway™ BP Clonase™ Enzyme Mix

Gateway BP Clonase®酵素には、Int(インテグラーゼ)タンパク質とIHF(組込み宿主因子)タンパク質の両方が含まれています。これらのタンパク質は、クローン詳細を見る
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製品番号(カタログ番号)数量
11789021100反応
1178901320反応
製品番号(カタログ番号) 11789021
価格(JPY)
293,300
Each
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数量:
100反応
Gateway BP Clonase®酵素には、Int(インテグラーゼ)タンパク質とIHF(組込み宿主因子)タンパク質の両方が含まれています。これらのタンパク質は、クローン(attB部位を含む)およびドナーベクター(attP部位を含む)からのPCR産物またはDNA断片のin vitro組換えを触媒して、エントリークローンを生成します。BP Clonase® II酵素フォーマットは、酵素の安定性を確保するために酵素とバッファーの両方を一つに混合したもので、分注ステップが少なく便利な10 µLの反応セットアップを可能にします。これにより、組換え効率が最大限に高まり、分注が最小限に抑えられます。BP Clonase酵素のオリジナルフォーマットは、別々のチューブで提供される独立型の酵素混合物と反応バッファーです。
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
適合バッファー反応バッファー
製品タイプBPクロナーゼ酵素ミックス
数量100反応
出荷条件ドライアイス
酵素BPクロナーゼ
製品ラインClonase, Gateway
Unit SizeEach
組成および保存条件
すべてのGateway™ BP Clonase™酵素キットには、プロテイナーゼK溶液(2 µg/µL)、30%のPEG 8000/30 mMのMgCl2溶液、およびポジティブコントロールベクターが含まれます。BPクロナーゼ™酵素は-80℃で保存し、BPクロナーゼ™ II酵素混合物は-20℃で保存します適切に保存した場合、6カ月間安定しています。

よくあるご質問(FAQ)

I performed a BP reaction and got high background after transformation. Can you please offer some troubleshooting tips?

– Check whether the reaction was transformed into an E.coli strain containing the F' episome and the ccdA gene – use an E.coli strain that does not contain the F' episome, e.g. DH10B, TOP10.
– Deletion (full or partial) of the ccdB gene – propagate in media with 50-100 mg/mL ampicillin and 15-30 µg/mL chloramphenicol.
– Contamination from another resistant strain.
– Check whether proper amount of DNA was used in the reaction.

I performed a BP reaction and got two distinct types of colonies (large and small) after transformation. How should I proceed?

Typically when both large and small colonies are produced following BP recombination, we recommend screening several of both of the small and large colony types by analytical restriction digest, PCR with gene specific primers, or by sequencing to determine what you have and decide on the best course forward. If one of the colonies you analyze contains your desired entry clone, then you may proceed with this entry clone to an LR reaction to produce your desired expression clone.

There are several possible causes of this issue:

– Plasmid was lost during culture due to large size or toxicity – To improve results next time you perform a BP reaction with a tricky insert, you may try incubating your transformation plate at 30 degrees C and/or use Stbl2 E.coli to stabilize the plasmid. We also recommend performing the BP reaction positive control pEXP7-Tet alongside your BP cloning reaction of interest; the results of that control reaction will let you know whether the large and small colony phenotype is specific to your insert of interest.

– Deletions (full or partial) or point mutations in the ccdB gene – A negative BP reaction control (with no BP clonase added) should not produce any colonies – If a no BP clonase negative control produces colonies, then the ccdB/chlorophenicol cassette is compromised and we recommend to obtain a new pDONR vector.br/>
– Background on antibiotic selection plate due to contamination or expired antibiotic – If you run a no plasmid added transformation negative control plate, then this plate should not produce any colonies. Colonies on transformation negative control plate suggests contamination or need to make fresh plates.

I performed a BP reaction and got no colonies after transformation, and the recombination positive control was not successful. Can you please offer some suggestions?

– Check the competent cells with pUC19 transformation.
– Increase the amount plated.

I performed a BP reaction and got few or no colonies after transformation, whereas the transformation control gave colonies. Can you please offer some suggestions?

– Increase the incubation time up to 18 hours.
– Make sure to treat reactions with proteinase K before transformation.
– Check whether the correct antibiotic was used for selection.
– Check whether the att site sequences are correct.
– Check whether the correct Clonase enzyme was used and whether it was functional.
– Check whether the recommended amount of DNA was used in the reaction.
– Check primer design and try gel/PEG purifying the attB-PCR product.
– If the attB-PCR product or linear attB Expression clone is too long (>5 kb), incubate the BP reaction overnight.

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

BP Clonase and LR Clonase have the 5X BP reaction buffer or the 5X LR reaction buffer, respectively, in separate vials and require storage at -80 degrees C. On the other hand, BP Clonase II and LR Clonase II offer the convenience of pre-mixed BP Clonase /LR Clonase and 5X BP/LR reaction buffer, respectively. These pre-mixed formulations are more stable at -20 degrees C.

View all Gateway™ BP Clonase™ Enzyme Mix, 100 Reactions FAQs

引用および参考文献 (8)

引用および参考文献
Abstract
A suite of Gateway cloning vectors for high-throughput genetic analysis in Saccharomyces cerevisiae.
Authors:Alberti S, Gitler AD, Lindquist S,
Journal:Yeast
PubMed ID:17583893
'In the post-genomic era, academic and biotechnological research is increasingly shifting its attention from single proteins to the analysis of complex protein networks. This change in experimental design requires the use of simple and experimentally tractable organisms, such as the unicellular eukaryote Saccharomyces cerevisiae, and a range of new high-throughput ... More
The alliance for cellular signaling plasmid collection: a flexible resource for protein localization studies and signaling pathway analysis.
Authors:Zavzavadjian JR, Couture S, Park WS, Whalen J, Lyon S, Lee G, Fung E, Mi Q, Liu J, Wall E, Santat L, Dhandapani K, Kivork C, Driver A, Zhu X, Chang MS, Randhawa B, Gehrig E, Bryan H, Verghese M, Maer A, Saunders B, Ning Y, Subramaniam S, Meyer T, Simon MI, O'Rourke N, Chandy G, Fraser ID,
Journal:Mol Cell Proteomics
PubMed ID:17192258
'Cellular responses to inputs that vary both temporally and spatially are determined by complex relationships between the components of cell signaling networks. Analysis of these relationships requires access to a wide range of experimental reagents and techniques, including the ability to express the protein components of the model cells in ... More
Gateway RFP-fusion vectors for high throughput functional analysis of genes.
Authors:Park JY, Hwang EM, Park N, Kim E, Kim DG, Kang D, Han J, Choi WS, Ryu PD, Hong SG,
Journal:Mol Cells
PubMed ID:17646710
'There is an increasing demand for high throughput (HTP) methods for gene analysis on a genome-wide scale. However, the current repertoire of HTP detection methodologies allows only a limited range of cellular phenotypes to be studied. We have constructed two HTP-optimized expression vectors generated from the red fluorescent reporter protein ... More
Development of R4 gateway binary vectors (R4pGWB) enabling high-throughput promoter swapping for plant research.
Authors:Nakagawa T, Nakamura S, Tanaka K, Kawamukai M, Suzuki T, Nakamura K, Kimura T, Ishiguro S,
Journal:Biosci Biotechnol Biochem
PubMed ID:18256458
We developed a new series of Gateway binary vectors, R4pGWBs, that are plant transformation vectors designed for one-step construction of chimeric genes between any promoter and any cDNA. The structure of R4pGWBs is almost the same as the promoterless type of improved pGWBs (ImpGWBs), except that the attR1 site is ... More
New recombination methods for Sinorhizobium meliloti genetics.
Authors:House BL, Mortimer MW, Kahn ML,
Journal:Appl Environ Microbiol
PubMed ID:15128536
The availability of bacterial genome sequences has created a need for improved methods for sequence-based functional analysis to facilitate moving from annotated DNA sequence to genetic materials for analyzing the roles that postulated genes play in bacterial phenotypes. A powerful cloning method that uses lambda integrase recombination to clone and ... More
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