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  6. Invitrogen™ Zero Blunt™ TOPO™ PCR Cloning Kit, without competent cells 

Invitrogen™ Zero Blunt™ TOPO™ PCR Cloning Kit, without competent cells

Product Code. 11596885
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Product Code. 11596885 Supplier Invitrogen™ Supplier No. 450245

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445.64 EUR valid until 2026-05-31
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Description

Includes

Linearized and topoisomerase I-activated pCR™Blunt II-TOPO™ vector; Salt solution; dNTPs; Control template; M13 forward and reverse primers; Sterile water

Includes the Zero Blunt TOPO vector containing the ccdB gene for positive selection, only permitting growth of plasmid vectors with recombinants. Resistant to Kanamycin (KanR) and Zeocin™ (ZeoR).
pCRBlunt II-TOPO vector: designed for proofreading polymerases
The pCRBlunt II-TOPO vector is designed to clone blunt-ended PCR products generated by thermostable proofreading polymerases such as Platinum™ Pfx DNA Polymerase. The pCRBlunt II-TOPO vector contains:

  • EcoRI sites flanking the PCR product insertion site for easy excision of inserts
  • Kanamycin and Zeocin resistance genes for your choice of selection in E. coli
  • SP6 promoter/primer site for in vitro RNA transcription and sequencing
  • M13 forward and reverse primer sites for sequencing or PCR screening
pCRBlunt II-TOPO clone selection
pCRBlunt II-TOPO allows for direct selection of recombinants via disruption of the lethal E. coli gene, ccdB. The vector contains the ccdB gene fused to the C-terminus of the LacZα fragment. Ligation of a blunt-end PCR product disrupts expression of the LacZα-ccdB gene fusion, permitting growth of only positive recombinants upon transformation. Cells that contain non-recombinant vector are killed upon plating. Therefore, blue/white screening is not required.
Simplified TOPO-based cloning
Using TOPO cloning technology, there is no need for PCR primers containing specific sequences, post-PCR procedures, vector preparation, or other time-intensive DNA manipulation steps. Just add your PCR reaction straight to the provided topoisomerase-charged vector, incubate 5 minutes, and transform E. coli competent cells.
Efficient cloning
With up to 95% of clones carrying the desired insert, you can screen fewer clones, saving you time and money. The pCRBlunt II-TOPO vector used in this kit comes with lethal ccdB gene for efficient selection of blunt-ended PCR recombinants products generated by thermostable proofreading polymerases.
The standard in cloning
When it comes to cloning, TOPO™ cloning technology has been a reliable partner for thousands of scientists for over ten years. Fast, simple-to-use, and efficient, TOPO™ cloning has been applied to many different vectors for a wide array of applications.
Zero Blunt TOPO PCR Cloning Kit options
The Zero Blunt TOPO PCR Cloning Kit for direct insertion of blunt-ended PCR products into a plasmid vector can be purchased with a variety of competent cells that deliver different advantages depending upon your needs
General cloning: TOP10 cells (Cat. No. K2800-20, K2800-40)
High-efficiency cloning: TOP10 Electrocomp™ Cells (Cat. No. K2860-01, K2860-40)
General cloning, bacteriophage T1 resistance: DH5α-T1R (Cat. Nos. K2820-20, K2820-40)
Fast growth: Mach1™-T1R Chemically Competent E. Coli (Cat. No. K2830-20)
Provide your own: for flexibility and to save money (Cat. No. 450254)
A version of the kit that includes a PureLink™ Quick Plasmid Miniprep Kit (Cat. No. K2800-02) for use in isolation of clean, sequencing-ready, recombinant plasmid is also available.

  • Fast and easy: go from PCR to clones in just three steps and in as little as 5 minutes hands-on time
  • Efficient: obtain up to 95% clones with correct insert
  • Proven: reliable performance for over a decade with over 4,000 citations
  • Simple: no ligase, post-PCR procedures, or PCR primers containing specific sequences are required
  • Vector: pCR™Blunt II-TOPO vector: contains the ccdB gene, allowing for direct selection of recombinants
  • Cloning method: TOPO cloning: Topoisomerase I–based, 5-minute ligation of blunt-ended PCR products amplified with proofreading thermostable polymerases
  • Competent cells: Various options: choose from kits with either general, high-efficiency, bacteriophage T1-resistant, fast-growing competent cells (available separately) or use your own
  • Antibiotic resistance: Ampicillin (AmpR), Kanamycin (KanR)

Cloning, PCR Cloning

Order Info

Shipping Condition: Dry Ice

TRUSTED_SUSTAINABILITY

Specifications

Bacterial or Yeast Strain Not Included
Antibiotic Resistance Bacterial Kanamycin (KanR), Zeocin™ (ZeoR)
Cloning Method Blunt TOPO™
Content And Storage Box 1:
• Linearized and topoisomerase I-activated pCR™Blunt II-TOPO™ vector
• Salt solution
• dNTPs
• Control template
• M13 forward and reverse primers
• Sterile water

Store at -5 to -30°C.
All reagents are stable for 6 months when properly stored.
Format Kit
Product Line TOPO, Zero Blunt
Product Type PCR Cloning Kit
Promoter SP6
Quantity 25 Reactions
Shipping Condition Dry Ice
Vector Blunt DNA Cloning Vectors, TOPO Cloning Vectors, pCR
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Frequently Asked Questions (FAQs)

What is the difference between the pCR2.1-TOPO and pCR4-TOPO vectors?

The vector backbones for both of these vectors are very similar. The main difference is that the pCR4-TOPO vector has sequencing primer sites located as close as 33 base pairs from the PCR product insertion site. This minimizes the amount of vector DNA sequence that needs to be read before reaching the sequence of the insert, making the pCR4-TOPO vector very useful for sequencing applications.

What is the difference between the pCR2.1-TOPO and pCRII-TOPO vectors?

The vector backbones for both of these vectors are very similar. The main difference is that the pCRII-TOPO vector is a dual promoter vector, containing the SP6 and T7 promoters for in vitro transcription/sequencing, whereas the pCR2.1-TOPO vector contains only the T7 promoter for in vitro transcription/sequencing. Both vectors contain the M13 Forward and Reverse primer sites for sequencing or PCR screening.

Your TOPO cloning kits contain a control template and control primers. Can I obtain the sequence of the control template?

The sequence of the control template is proprietary.

I'm seeing a lot of vector-only colonies when I try to perform a negative control reaction using vector only (no insert) for a TOPO reaction. Is my TOPO vector re-ligating?

Using the vector only for transformation is not a recommended negative control. The process of TOPO-adaptation is not a 100% process, therefore, there will be “vector only” present in your mix, and colonies will be obtained.

I'm trying to clone in my phosphorylated PCR product into a TOPO vector, and I'm getting no colonies. However, when I clone the same product into a TA vector, everything works perfectly. Why is this?

Phosphorylated products can be TA cloned but not TOPO cloned. This is because the necessary phosphate group is contained within the topoisomerase-DNA intermediate complex of the vector. TOPO vectors have a 3' phosphate to which topoisomerase is covalently bound and a 5' phosphate. Non-TOPO linear vectors (TA and Blunt) have a 3' OH and a 5' phosphate. Phosphorylated products should be phosphatased (CIP) before TOPO cloning.

I'm able to get a lot of colonies, however, none contain my insert of interest. What should I do?

You may be cloning in an artifact. TA and TOPO Cloning are very efficient for small fragments (< 100 bp) present in certain PCR reactions. Gel-purify your PCR product using either a silica-based DNA purification system or electroelution. Be sure that all solutions are free of nucleases (avoid communal ethidium bromide baths, for example.)
A majority of colonies are blue or light blue, with very few white colonies. What should I do?

There could be a few possibilities for this:

- The insert does not interrupt the reading frame of the lacZ gene. If you have a small insert (< 500 bp), you may have light blue colonies. Analyze some of these blue colonies as they may contain insert.
- A polymerase that does not add 3' A-overhangs was used. If you used a proofreading enzyme, you will need to do a post-reaction treatment with Taq polymerase to add the 3' A-overhangs.
- PCR products were gel-purified before ligation. Gel purification can remove the single 3' A- overhangs. Otherwise, optimization of your PCR can be performed so that you can go directly from PCR to cloning.
- The PCR products were stored for a long period of time before ligation reaction. Use fresh PCR products. Efficiencies are reduced after as little as 1 day of storage.
- Too much of the amplification reaction was added to the ligation. The high salt content of PCR can inhibit ligation. Use no more than 2-3 µl of the PCR mixture in the ligation reaction.
- The molar ratio of vector:insert in the ligation reaction may be incorrect. Estimate the concentration of the PCR product. Set up the ligation reaction with a 1:1 or 1:3 vector:insert molar ratio.
On a typical plate there are a few white colonies which do not contain insert. These are usually larger than the other colonies and are due to a deletion of a portion of the plasmid sequence by a rare recombination event (usually from the polylinker to a site in the F1 origin). To find a colony with an insert it is best to pick clones of a variety of color and pattern for analysis. Often an insert will generate two distinct patterns according to its orientation.

I'm getting no colonies after transformation. What should I do?

No colonies may occur due to the following problems:

Bacteria were not competent. Use the pUC18 vector included with the One Shot module to check the transformation efficiency of the cells.
- Incorrect concentration of antibiotic on plates, or the plates are too old. Use 100 µg/mL of ampicillin or 50 µg/mL kanamycin. Be sure ampicillin plates are fresh (< 1 month old).
- The product was phosphorylated (TOPO cloning only). Phosphorylated products can be TA-cloned but not TOPO-cloned. This is because the necessary phosphate group is contained within the topoisomerase-DNA intermediate complex of the vector. The TOPO vector has a 3' phosphate to which topoisomerase is covalently bound and a 5' phosphate. The non- TOPO vectors (TA and Blunt) have a 3' OH and a 5' phosphate. Phosphorylated products should be phosphatased (CIP) before TOPO-cloning.

I'm getting low cloning efficiency with my TOPO cloning reactions. What should I do?

Please consider the following possible causes:
- pH > 9: Check the pH of the PCR amplification reaction and adjust with 1 M Tris-HCl, pH 8.
- Excess (or overly dilute) PCR product: Reduce (or concentrate) the amount of PCR product.
- Incomplete extension during PCR: Be sure to include a final extension step of 7 to 30 minutes during PCR. Longer PCR products will need a longer extension time.
- Cloning large inserts (>1 kb): Try one or all of the following suggestions: Increase amount of insert. Incubate the TOPO cloning reaction longer. Gel-purify the insert using either a silica-based DNA purification system (e.g., PureLink system) or electroelution. Be sure that all solutions are free of nucleases (avoid communal ethidium bromide baths, for example.)
- PCR product does not contain sufficient 3' A-overhangs even though you used Taq polymerase: Increase the final extension time to ensure all 3' ends are adenylated. Taq polymerase is less efficient at adding a nontemplate 3' A next to another A. Taq is most efficient at adding a nontemplate 3' A next to a C. You may have to redesign your primers so that they contain a 5' G instead of a 5´ T.
I'm getting very few colonies after transformation of my TOPO cloning reaction. How can I increase the number of primary colonies?

Please try the suggestions below to increase the number of colonies.
- Longer incubation of the TOPO cloning reaction at room temperature, provided that the 6X Salt solution is added to the reaction.
- Electroporation can give significant increases in colony numbers; often 10-20 fold higher. However, if doing electroporation, it is important that the TOPO reaction mix contains diluted Salt solution or, for best results, precipitated prior to transformation. For high primary transformants by electroporation it is recommended to:
- Add 100 µL double diH2O to the 6 µL TOPO reaction and incubate 10 more minutes at 37 degrees C.
- Precipitate by adding 10 µL 3 M Na-Acetate, 2 µL 20 µg/µL glycogen, 300 µL 100% ethanol. Place on dry ice or –80 degrees C for 20 min, spin at top speed in a microcentrifuge at 4 degrees C for 15 min. Wash pellet with 800 µL 80% ethanol, spin at top speed for 10 min, pour off ethanol, spin 1 min, and remove remaining ethanol without disturbing pellet. Dry pellet (air-dry or speed-vac).
- Resuspend pellet in 10 µL ddH2O and electroporate 3.3 µL of resuspended DNA according to a normal electroporation protocol. This electroporation protocol can yield up to 20 fold more colonies than chemical transformation of an equivalent TOPO-reaction. The addition of the 100 µL ddH2O followed by 10 mins incubation is not absolutely necessary, but it sufficiently dilutes the reaction and may help inactivate topoisomerase so that it is more easily electroporated.

I'm planning on cloning a 1kb fragment for sequencing and want to minimize the amount of vector sequence in my data. Which of your vectors should I use?

We would suggest using our TOPO TA cloning kit for sequencing, which contains the pCR 4 TOPO vector, or our Zero Blunt TOPO PCR cloning kit for sequencing, which contains the pCR4Blunt-TOPO vector.
I have a blunt-ended restriction product cut from another cloning vector. Can I insert this into a Zero Blunt TOPO vector?

Yes, though you will need to treat it with calf intestinal phosphatase (CIP) to get rid of the 5' phosphate group for TOPO Cloning.
Which PCR polymerases do you recommend for TA/Blunt/D-TOPO cloning and why?

TA Cloning:
- This cloning method was designed for use with pure Taq polymerases (native, recombinant, hot start); however, High Fidelity or Taq blends generally work well with TA cloning. A 10:1 or 15:1 ratio of Taq to proofreader polymerase will still generate enough 3' A overhangs for TA cloning.
- Recommended polymerases include Platinum Taq, Accuprime Taq, Platinum or Accuprime Taq High Fidelity, AmpliTaq, AmpliTaq Gold, or AmpliTaq Gold 360.

Blunt cloning:
- Use a proofreading enzyme such as Platinum SuperFi DNA Polymerase.

Directional TOPO cloning:
- Platinum SuperFi DNA Polymerase works well.

What PCR enzyme would you recommend for use with the Directional TOPO Cloning Kits?

For the Directional TOPO Cloning Vectors, a PCR product must be generated by a proofreading enzyme to create a blunt product. Pfx50 or Accuprime Pfx and Accuprime Pfx Supermix from Thermo Fisher Scientific are recommended for use.

When cloning a Pfx-amplified PCR product, the insert to vector ratio is an important consideration. The PCR product generally needs to be diluted since Pfx generates a high concentration of product and using too much insert DNA can hamper the TOPO reaction. A 1:1 molar ratio of vector to insert (or about 2-10ng of insert) is recommended.
How do you recommend that I prepare my DNA for successful electroporation of E. coli?

For best results, DNA used in electroporation must have a very low ionic strength and a high resistance. A high-salt DNA sample may be purified by either ethanol precipitation or dialysis.

The following suggested protocols are for ligation reactions of 20ul. The volumes may be adjusted to suit the amount being prepared.

Purifying DNA by Precipitation: Add 5 to 10 ug of tRNA to a 20ul ligation reaction. Adjust the solution to 2.5 M in ammonium acetate using a 7.5 M ammonium acetate stock solution. Mix well. Add two volumes of 100 % ethanol. Centrifuge at 12,000 x g for 15 min at 4C. Remove the supernatant with a micropipet. Wash the pellet with 60ul of 70% ethanol. Centrifuge at 12,000 x g for 15 min at room temperature. Remove the supernatant with a micropipet. Air dry the pellet. Resuspend the DNA in 0.5X TE buffer [5 mM Tris-HCl, 0.5 mM EDTA (pH 7.5)] to a concentration of 10 ng/ul of DNA. Use 1 ul per transformation of 20 ul of cell suspension.

Purifying DNA by Microdialysis: Float a Millipore filter, type VS 0.025 um, on a pool of 0.5X TE buffer (or 10% glycerol) in a small plastic container. Place 20ul of the DNA solution as a drop on top of the filter. Incubate at room temperature for several hours. Withdraw the DNA drop from the filter and place it in a polypropylene microcentrifuge tube. Use 1ul of this DNA for each electrotransformation reaction.
Can I use the pCR-Blunt or pCR-Blunt-TOPO vector to clone PCR products amplified with Taq DNA polymerase?

No you cannot use pCR-Blunt or pCR-Blunt-TOPO vector to clone PCR products amplified with Taq DNA polymerase. The pCR-Blunt vector is prepared with blunt ends to accept blunt-ended fragments. Due to the terminal transferase activity of Taq DNA polymerase, PCR products amplified with this enzyme have 3'-A overhangs. In order to clone these products into pCR-Blunt, you would need to polish the ends to make them blunt (which usually is not an efficient process). Our TA Cloning Kits or TOPO TA Cloning kits are a better choice for cloning Taq-generated PCR products. TA Cloning kits include a linearized vector with 3'-T overhangs for efficient ligation of Taq-generated PCR products without additional manipulation.
What are the melting temperatures for the M13 Forward (-20) and M13 Reverse primers in the TOPO Cloning and Zero Blunt Kits?

Assuming that the primer is at a 50 nM final concentration and 50 mM final salt concentration, the melting temperatures are: M13 Forward (-20) Primer = 52.7 and the M13 Reverse Primer = 45.3. For use in the control PCR reaction we recommend using an annealing temperature of 56C.
When using the Zero Blunt TOPO PCR Cloning Kit (Cat. No. 450245), what is the recommended ratio of vector to insert?

The recommended ratio of vector:insert is 1:1 to 1:3.

When should DMSO, formamide, glycerol and other cosolvents be used in PCR?

Cosolvents may be used when there is a failure of amplification, either because the template contains stable hairpin-loops or the region of amplification is GC-rich. Keep in mind that all of these cosolvents have the effect of lowering enzyme activity, which will decrease amplification yield. For more information see P Landre et al (1995). The use of co-solvents to enhance amplification by the polymerase chain reaction. In: PCR Strategies, edited by MA Innis, DH Gelfand, JJ Sninsky. Academic Press, San Diego, CA, pp. 3-16.

Additionally, when amplifying very long PCR fragments (greater than 5 kb) the use of cosolvents is often recommended to help compensate for the increased melting temperature of these fragments.

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

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