Zero Blunt™ TOPO™ PCR Cloning Kit, with One Shot™ TOP10 Electrocomp™ E. coli
Zero Blunt&trade; TOPO&trade; PCR Cloning Kit, with One Shot&trade; TOP10 Electrocomp&trade; <i>E. coli</i>
Invitrogen™

Zero Blunt™ TOPO™ PCR Cloning Kit, with One Shot™ TOP10 Electrocomp™ E. coli

Zero Blunt™ TOPO™ PCR Cloning Kits offers the fastest and easiest method for high-efficiency (cloning of blunt-end PCR products amplifiedRead more
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Catalog NumberQuantity
K28602025 Reactions
K28604050 Reactions
Catalog number K286020
Price (USD)
828.00
Each
Add to cart
Quantity:
25 Reactions
Price (USD)
828.00
Each
Add to cart
Zero Blunt™ TOPO™ PCR Cloning Kits offers the fastest and easiest method for high-efficiency (cloning of blunt-end PCR products amplified with proofreading thermostable polymerases. The kits include linearized and topoisomerase I-activated pCR™-Blunt II-TOPO™ Vector for 5-minute benchtop ligations without ligase (1). The pCR™-Blunt II-TOPO™ Vector also features:

ccdB gene for positive selection (2)
EcoR I 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

Selected Zero Blunt™ TOPO™ PCR Cloning Kits are available in combo kits combined with a PureLink™ Quick Plasmid Miniprep Kit (50 preps) for fast plasmid purification of your TOPO™-cloned inserts for downstream analysis.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Bacterial or Yeast StrainTOP10
Cloning MethodBlunt TOPO™
FormatKit
Product LineOne Shot™
Product TypePCR Cloning Kit
PromoterSP6
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 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.

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

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