Rapid Multi-fragment DNA Seamless Cloning Premix - BioReagent,2×

Cat. No.: R1522799
Disponible para pedir
GRADE & PURITY BioReagent ? BioReagent grade — tested suitable for life-science and molecular-biology use. Use for cell culture, assays, and biochemical work needing biological compatibility.
Synonyms
DNA Assembly Mix Ultra | Rapid Multi-fragment DNA Assembly Master Mix
Storage
Store at -20°C
Shipped In
Ice chest + Ice pads
Application
Molecular Cloning
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Size
Estado
Price
Qty
50reactions
R1522799-50reactions
8-12 wks(?) Production requires sourcing of materials. We appreciate your patience and understanding.
139,90US$
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Why this grade

BioReagent,2× BioReagent for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Store at -20°C Ships Ice chest + Ice pads Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 0 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Descripción general

Seamless cloning technology based on recombination principle is a new-generation cloning method. It does not rely on tedious enzyme digestion and ligation procedures, nor end blunting operations. By recombination of 15–25 nt homologous sequences at the ends of DNA fragments and linearized vectors, inserts can be cloned into any site of any vector with extremely low vector self-ligation background. It is a simple, rapid and efficient directional DNA cloning technique.

This kit completes recombination of single or multiple DNA fragments in one reaction. Single-fragment recombination can be finished in as little as 5 minutes with a positive rate higher than 95%. HiFi Taq DNA Ligase is adopted in the master mix. Compared with ordinary Taq DNA Ligase, it features higher fidelity and significantly improves seamless cloning success rate. Meanwhile, transformation enhancers are added into the master mix to greatly increase the number of transformants. With guaranteed fidelity and transformation efficiency, the kit components are further optimized for superior stability and tolerance to heat and oxygen environments.

Product Applications

Rapid cloning; multi-fragment DNA assembly; site-directed DNA mutagenesis.

Experimental Procedures

1. Overview of Experimental Workflow


2. Preparation of Linearized Cloning Vector

Select appropriate cloning sites to linearize the vector. Vector linearization can be achieved by enzymatic digestion or inverse PCR amplification.

(1) Enzymatic Digestion Preparation

Some restriction endonucleases cannot efficiently digest supercoiled DNA, which may leave undigested vector DNA and reduce positive rates. Rapid restriction endonucleases are recommended for single or double digestion to ensure complete vector linearization and reduce transformation background (false-positive clones generated by undigested vectors).

Note 1: Vectors linearized by digestion do not require dephosphorylation, and double digestion is preferred.

Note 2: After digestion, inactivate endonucleases or purify vectors before recombination reactions.

Note 3: During vector gel recovery, perform prolonged electrophoresis to distinguish residual circular plasmids before gel cutting to reduce false positives.

(2) Inverse PCR Amplification Preparation

High-fidelity PCR Mix is recommended to avoid amplification mutations. Pre-linearized plasmids are suggested as templates to reduce interference of residual circular plasmids on cloning positive rates.

Note 1: If PCR products have no non-specific bands, add 1 μL DpnI into 50 μL PCR products, incubate at 37 ℃ for 1 h and 80 ℃ for 20 min to digest plasmid templates for direct recombination. Otherwise, purify PCR products by gel extraction.

Note 2: Purify PCR products for multi-fragment cloning.

3. PCR Primer Design for Insert Fragments

The 5' end of PCR primers must contain 15–25 nt (18 nt recommended) homologous sequences matching the ends of adjacent fragments (inserts or vectors). For sticky-ended vectors with 3' overhangs, primers must include the overhang region. For 5' overhangs, primers may or may not contain the overhang sequence.

Forward primer for insert amplification:

5'-Upstream vector homologous sequence + Restriction site (optional) + Gene-specific forward sequence-3'

Reverse primer for insert amplification:

3'-Gene-specific reverse sequence + Restriction site (optional) + Downstream vector homologous sequence-5'

Note 1: Clone regions with few repetitive sequences and uniform GC content. Recombination efficiency peaks when GC content within 25 nt upstream and downstream of vector cloning sites is 40%–60%.

Note 2: For recombinant products larger than 10 kb, design primers with 20–25 bp homologous arms.


Note 3: Ligation terminal sequences of pUC19 vector (Ampᵣ) provided in this kit are as follows: 

Note 4: Fragments with multiple repetitive sequences cannot be ligated via seamless cloning.

4. PCR Amplification of Insert Fragments

Use high-fidelity PCR Mix to minimize amplification mutations. Purified PCR products are preferred for seamless cloning. Specific PCR products identified by agarose gel electrophoresis can be used directly, but the loading volume shall not exceed 20% of the total reaction system.

5. Recombination Reaction

(1) Prepare the following reaction system on ice bath:

ComponentReaction SystemNegative Control ᶜPositive Control (If Required) ᵈ
Rapid Multi-fragment DNA Seamless Cloning Premix5 μl5 μl5 μl
Linearized Vector ᵃ50~200 ng50~100 ngpUC 19 Linearized Control Plasmid, 1 μl
Insert Fragment ᵇ10~200 ng-500 bp Control Fragment, 1 μl
ddH₂OTo 10 μlTo 10 μlTo 10 μl

a. Optimal vector dosage (ng) = 0.02 × vector base pairs, equivalent to 0.03 pmol.

b. For single insert: optimal fragment dosage (ng) = 0.04 × fragment base pairs.For multiple inserts: optimal dosage per fragment (ng) = 0.02 × fragment base pairs.

c. Negative control verifies residual circular plasmids in linearized vectors and is highly recommended.

d. Positive control eliminates interference from other experimental materials and operations.

Note 1: Swap vector and insert dosages if single insert is longer than the vector.

Note 2: Use 5× vector dosage for inserts shorter than 200 bp.

Note 3: Adopt minimum or maximum dosage when calculated amount exceeds the range limit.

Note 4: Excessively long vectors, inserts or large fragment numbers reduce colony count and positive rate.

Note 5: Apply optimal vector dosage for single-site mutation; apply multi-fragment dosage per site for multi-site mutations.

After system preparation, gently mix components by pipetting to avoid bubbles. Do not vortex.

(2) Incubate the reaction system at 50 ℃ for 5–60 min.

Note 1: Use accurate temperature-controlled instruments such as PCR instruments. Insufficient incubation reduces cloning efficiency.

Note 2: 15 min for 1–2 fragments; 30 min for 3–5 fragments.

Note 3: Extend incubation to 30–60 min for vector backbones >10 kb or inserts >4 kb.

Note 4: Briefly centrifuge to collect reaction liquid at tube bottom after 50 ℃ incubation.

(3) Cool reaction tubes on ice, then proceed to transformation or store at -20 ℃.

Note: Recombination products stored at -20 ℃ should be used within 1 week.

6. Transformation of Recombinant Products

Add 5–10 μL reaction liquid into 100 μL competent cells, mix gently and incubate on ice for 30 min. Heat shock at 42 ℃ for 60 s, then ice bath for 5 min. Add 500 μL SOC or LB medium, incubate at 37 ℃ with shaking (200 rpm) for 50–60 min. Spread bacterial suspension evenly on antibiotic-containing plates, and incubate inverted at 37 ℃ overnight.

Note 1: Positive rates vary with competent cells. Competent cells with transformation efficiency >10⁸ CFU/μg are recommended.

Note 2: Colony quantity depends on quantity and purity of PCR products and linearized vectors.

Note 3: A large number of white single colonies grow on positive control plates, while few colonies grow on negative control plates.

7. Positive Clone Identification

Pick single colonies and resuspend in 10 μL ddH₂O. Lyse at 95 ℃ for 10 min, use 1 μL lysate as template for colony PCR. Alternatively, inoculate colonies into resistant medium, culture overnight and extract plasmids for restriction digestion identification.

For positive control clone identification: use universal primers M13F/M13R for colony PCR, and HindIII/EcoRI for digestion assay.

Note 1: Use at least one universal primer in colony PCR to avoid false positives.

Note 2: Sequencing identification is available for further verification if necessary.

Note 3:M13F: TGTAAAACGACGGCCAGT

M13R: CAGGAAACAGCTATGAC

Troubleshooting

Problem DescriptionCauseSolution
Low Transformation EfficiencyLow Competent Cell EfficiencyThe transformation efficiency of competent cells shall be at least >10⁷ CFU/μg. A simple verification can be performed: transform 0.1 ng pUC19 plasmid, and 1000 grown colonies indicate an estimated transformation efficiency of 10⁷ CFU/μg. For recombinant products larger than 10 kb, competent cells with 10⁸ CFU/μg efficiency, or specialized competent cells for large plasmid DNA and recombinant product transformation, are recommended.
Low Transformation EfficiencyImproper Ratio of DNA FragmentsPrepare the reaction system in accordance with the recommended dosage and ratio in the instruction manual. Concentration detection of linearized vectors and inserts: For purified fragments with single clear bands and no smear residue on electrophoresis, spectrophotometric instruments such as NanoDrop can be used for concentration measurement. Concentration results are reliable only when the A260/A280 ratio is between 1.8~2.0. Agarose gel electrophoresis can be used to determine sample concentration for unpurified linearized vectors and inserts.
Low Transformation EfficiencyInsufficient Purity of DNA FragmentsPerform gel extraction purification on vectors and inserts. Metal ion chelators such as EDTA will inhibit seamless cloning reactions. Dissolve purified products in ddH₂O, and avoid using buffers including Tris-EDTA.
Low Transformation EfficiencyExcessive Reaction ProductIn the transformation system, the volume of seamless cloning reaction mixture shall not exceed 10% of the competent cell volume.
Most Clones Have No Insert FragmentIncomplete Vector LinearizationWhen preparing linearized vectors via enzymatic digestion, increase the dosage of rapid restriction endonuclease, extend the reaction duration, and purify digested products by gel extraction.
Most Clones Have No Insert FragmentContamination of Identical Resistant PlasmidsWhen amplifying inserts via PCR with plasmid templates, use pre-linearized plasmids as templates. Treat PCR products with DpnI methylation-sensitive endonuclease, or purify amplified fragments by gel extraction.
Most Clones Have No Insert FragmentInsufficient Plate Antibiotic ResistanceEnsure the correct antibiotics are used, and adopt freshly prepared antibiotic agar plates.
Most Clones Contain Incorrect InsertsNon-specific PCR Amplification ProductsOptimize the PCR system to improve amplification specificity, or purify PCR fragments via gel extraction.
Most Clones Contain Incorrect InsertsFragments With Multiple Repetitive SequencesFor inserts containing abundant repetitive sequences, use competent cells specialized for repetitive DNA fragment cloning, or adopt restriction ligation or GoldenGate cloning m

Specifications

Sinónimos
DNA Assembly Mix Ultra | Rapid Multi-fragment DNA Assembly Master Mix
Especificaciones y pureza
BioReagent, 2×
Estabilidad y almacenamiento
Store at -20℃ long term (24 months).
Condiciones de almacenamiento de almacenamiento
Store at -20°C
Enviado en
Ice chest + Ice pads
Este producto requiere envío en cadena de frío. Los servicios terrestres y otros servicios económicos no están disponibles.
Grado
BioReagent

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

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✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

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📊 Datasheet

Quick-reference summary of product specifications and applications.

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🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

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Advanced Data

Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:

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1 results found

Lot NumberCertificate TypeFechaArticulo
ZJ26F0535754Certificate of AnalysisJun 23, 2026 R1522799
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