Gateway™ LR Clonase™ Enzyme mix

Citations & References (4)

Invitrogen™

Gateway™ LR Clonase™ Enzyme mix

Name: Gateway™ LR Clonase™ Enzyme mix
SKU: 11791043

Gateway® LR Clonase® enzyme mix contains a proprietary blend of Int (Integrase), IHF (Integration Host Factor) and Xis (Excisionase) enzymesRead more

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Catalog Number	Quantity
11791043	100 Reactions
11791019	20 Reactions

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Catalog number 11791043

Price (MXN)

Quantity:

100 Reactions

Gateway® LR Clonase® enzyme mix contains a proprietary blend of Int (Integrase), IHF (Integration Host Factor) and Xis (Excisionase) enzymes that catalyze the in vitro recombination between an Entry clone (containing a gene of interest flanked by attL sites) and a Destination vector (containing attR sites) to generate your expression clone. We offer different formats of LR Clonase enzyme mixtures, depending on your application and desired format. LR Clonase II Plus enzyme mix is the latest version that offers the highest recombination efficiency available(Table 1), and is specifically optimized for both single and multiple fragment cloning (Table 1). LR Clonase II Plus enzyme mix is provided in an optimized single mix of enzyme and reaction buffer, ensuring enzyme stability and easy of use with few pippetting steps for both single and multiple fragment cloning. Our LR Clonase II enzyme mix is also available in a single mix format, while the original LR Clonase® enzyme is the enzyme and buffer in separate tubes

For Research Use Only. Not for use in diagnostic procedures.

Specifications

Compatible BufferReaction Buffer

Product TypeLR Clonase Enzyme Mix

Quantity100 Reactions

Shipping ConditionDry Ice

EnzymeLR Clonase

Product LineClonase, Gateway

Unit SizeEach

Contents & Storage

All Gateway™ LR Clonase™ enzyme kits include proteinase K solution (2 μg/μl) and a positive control vector. Store LR Clonase™ enzyme at -80°C; LR Clonase™ II or II Plus Enzyme mixtures at -20°C. Guaranteed stable for 6 months when properly stored.

Frequently asked questions (FAQs)

I performed an LR 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&339; episome, e.g. OmniMAX 2-T1R, 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 an LR reaction and got two distinct types of colonies (large and small) after transformation. What could be the possible reasons?

– Plasmid was lost during culture due to large size or toxicity – try incubating at 30 degrees C; use Stbl2 E.coli to stabilize the plasmid.
– Deletions (full or partial) or point mutations in the ccdB gene – obtain a new Destination vector.
– Small colonies may be unreacted entry clone that co-transforms with the Expression clone – reduce the amount of Entry clone to 50 ng per 10 µL reaction; reduce the volume of sample used for transformation to 1 µL; for a Destination vector with ampicillin selection marker, increase the ampicillin concentration to 300 µg/mL.

I performed an LR 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 an LR 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.
– Perform the positive control recombination with pENTR-Gus plasmid.
– If the Entry clone or Destination vector is too large (>10 kb), incubate the LR reaction overnight, linearize the Destination vector or the Entry clone or relax the Destination vector with topoisomerase I.

Can I create a single Entry vector for use with DEST vectors that have N-terminal tags and C-terminal tags?

No, since a stop codon would be necessary for an N-terminal tagged destination vector, whereas the presence of a stop codon would block expression of the C-terminal tag.

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

Citations & References (4)

Citations & References

Abstract

High-throughput yeast two-hybrid assays for large-scale protein interaction mapping.

Authors:Walhout AJ, Vidal M,

Journal:Methods

PubMed ID:11403578

'Protein-protein interactions play fundamental roles in many biological processes. Hence, protein interaction mapping is becoming a well-established functional genomics approach to generate functional annotations for predicted proteins that so far have remained uncharacterized. The yeast two-hybrid system is currently one of the most standardized protein interaction mapping techniques. Here, we ... More

Functional identification of Arabidopsis stress regulatory genes using the controlled cDNA overexpression system.

Authors:Papdi C, Abrahám E, Joseph MP, Popescu C, Koncz C, Szabados L,

Journal:Plant Physiol

PubMed ID:18441225

'Responses to environmental stresses in higher plants are controlled by a complex web of abscisic acid (ABA)-dependent and independent signaling pathways. To perform genetic screens for identification of novel Arabidopsis (Arabidopsis thaliana) loci involved in the control of abiotic stress responses, a complementary DNA (cDNA) expression library was created in ... More

Homologous high-throughput expression and purification of highly conserved E coli proteins.

Authors:Ergin A, Büssow K, Sieper J, Thiel A, Duchmann R, Adam T,

Journal:Microb Cell Fact

PubMed ID:17553160

BACKGROUND: Genetic factors and a dysregulated immune response towards commensal bacteria contribute to the pathogenesis of Inflammatory Bowel Disease (IBD). Animal models demonstrated that the normal intestinal flora is crucial for the development of intestinal inflammation. However, due to the complexity of the intestinal flora, it has been difficult to ... More

Human protein factory for converting the transcriptome into an in vitro-expressed proteome,.

Authors:Goshima N, Kawamura Y, Fukumoto A, Miura A, Honma R, Satoh R, Wakamatsu A, Yamamoto J, Kimura K, Nishikawa T, Andoh T, Iida Y, Ishikawa K, Ito E, Kagawa N, Kaminaga C, Kanehori K, Kawakami B, Kenmochi K, Kimura R, Kobayashi M, Kuroita T, Kuwayama H, Maruyama Y, Matsuo K, Minami K, Mitsubori M, Mori M, Morishita R, Murase A, Nishikawa A, Nishikawa S, Okamoto T, Sakagami N, Sakamoto Y, Sasaki Y, Seki T, Sono S, Sugiyama A, Sumiya T, Takayama T, Takayama Y, Takeda H, Togashi T, Yahata K, Yamada H,

Journal:Nat Methods

PubMed ID:19054851

Appropriate resources and expression technology necessary for human proteomics on a whole-proteome scale are being developed. We prepared a foundation for simple and efficient production of human proteins using the versatile Gateway vector system. We generated 33,275 human Gateway entry clones for protein synthesis, developed mRNA expression protocols for them ... More