Zero Blunt™ TOPO PCR Cloning Kit for Subcloning
Zero Blunt™ TOPO PCR Cloning Kit for Subcloning
Invitrogen™

Zero Blunt™ TOPO PCR Cloning Kit for Subcloning

The Zero Blunt™ TOPO™ PCR Cloning Kit for subcloning combines the unique Zero Background™ technology with the pCR™- Blunt II-TOPO™Read more
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Catalog number K283020
also known as K2830-20
Price (USD)
822.00
Each
Add to cart
Price (USD)
822.00
Each
Add to cart
The Zero Blunt™ TOPO™ PCR Cloning Kit for subcloning combines the unique Zero Background™ technology with the pCR™- Blunt II-TOPO™ vector (Figure 7) to allow easy, high-efficiency cloning of blunt-end PCR products.
• Unique technology to minimize background
• Get your clone—95% efficiency
• Multiple primer sites (T7, T3, M13F, M13R) make sequence analysis or PCR easy and convenient
• Kanamycin and Zeocin resistance genes for your choice of selection
• Convenient, validated restriction sites in MCS for further subcloning
• Includes MachI™ T1R competent cells for fast miniprep and shortens cloning time
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Bacterial or Yeast StrainMach1™
Cloning MethodBlunt TOPO™
FormatKit
For Use With (Application)Chromatin Biology
Product LineOne Shot™
Product TypePCR Cloning Kit
Quantity25 Reactions
VectorBlunt DNA Cloning Vectors
Unit SizeEach
Contents & 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.

Box 2:
• One Shot™ Chemically Competent or Electrocomp™ E. coli
• S.O.C. medium
• Supercoiled pUC19 control plasmid

Store at -68 to -85°C.

Frequently asked questions (FAQs)

What is the best molar ratio of PCR product:vector to use for TOPO TA cloning? Is there an equation to calculate the quantity to use?

We suggest starting with a molar ratio of 1:1 (insert:vector), with a range of 0.5:1 to 2:1. The quantity used in a TOPO cloning reaction is typically 5-10 ng of a 2 kb PCR product.

Equation:

length of insert (bp)/length of vector (bp) x ng of vector = ng of insert needed for 1:1 (insert:vector ratio)

What is the best ratio of insert:vector to use for cloning? Is there an equation to calculate this?

The optimal ratio is 1:1 insert to vector. Optimization can be done using a ratio of 0.5-2 molecules of insert for every molecule of the vector.

Equation:

length of insert (bp)/length of vector (bp) x ng of vector = ng of insert needed for 1:1 insert:vector ratio

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.)

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