NEBuilder HiFi DNA Assembly Reaction Protocol

Use NEBuilder® Protocol Calculator to easily generate your customized protocol. This online tool calculates the optimal amounts of input DNA sequences for the NEBuilder® HiFi assembly reaction given the length and concentration of each input fragment.

Protocols.io also provides an interactive version of this protocol where you can discover and share optimizations with the research community.

Optimal Quantities

NEB recommends a total of 0.03–0.2 pmols of DNA fragments when 1 or 2 fragments are being assembled into a vector, and 0.2–0.5 pmols of DNA fragments when 4–6 fragments are being assembled. Efficiency of assembly decreases as the number or length of fragments increases. To calculate the number of pmols of each fragment for optimal assembly, based on fragment length and weight, we recommend the following formula, or using the tool, NEBiocalculator.

pmols = (weight in ng) x 1,000 / (base pairs x 650 daltons)
50 ng of 5000 bp dsDNA is about 0.015 pmols
50 ng of 500 bp dsDNA is about 0.15 pmols

The mass of each fragment can be measured using the NanoDrop instrument, absorbance at 260 nm or estimated from agarose gel electrophoresis followed by ethidium bromide staining.

HiFi DNA Assembly Protocol

  1. Set up the following reaction on ice:
      Recommended Amount of Fragments Used for Assembly
    2–3 Fragment Assembly* 4–6 Fragment Assembly** NEBuilder Positive Control
    Recommended DNA Molar Ratio vector:insert = 1:2 vector:insert = 1:1  
    Total Amount of Fragments 0.03–0.2 pmols*
    X μl
    0.2–0.5 pmols**
    X μl
    10 μl
    NEBuilder
    HiFi DNA Assembly Master Mix
    10 μl 10 μl 10 μl
    Deionized H2O 10-X μl 10-X μl 0
    Total Volume 20 μl✝✝ 20 μl✝✝ 20 μl
    * Optimized cloning efficiency is 50–100 ng of vector with 2-fold excess of each insert. Use 5-fold molar excess of any insert(s) less than 200 bp. Total volume of unpurified PCR fragments in the assembly reaction should not exceed 20%. To achieve optimal assembly efficiency, design 15-20 bp overlap regions between each fragment.
    ** To achieve optimal assembly efficiency, design 20-30 bp overlap regions between each fragment with equimolarity of all fragments (suggested: 0.05 pmol each).
    Control reagents are provided for 5 experiments.
    †† If greater numbers of fragments are assembled, increase the volume of the reaction, and use additional NEBuilder HiFi DNA Assembly Master Mix.


  2. Incubate samples in a thermocycler at 50°C for 15 minutes (when 2 or 3 fragments are being assembled) or 60 minutes (when 4–6 fragments are being assembled). Following incubation, store samples on ice or at –20°C for subsequent transformation.

    Note: Extended incubation up to 60 minutes may help to improve assembly efficiency in some cases (for further details see FAQ section).

  3. Transform NEB 5-alpha or 10-beta Competent E. coli cells (provided in the cloning kit, bundle or purchased separately from NEB) with 2 μl of the chilled assembled product, following the transformation protocol.


NEBuilder® HiFi DNA Assembly Master Mix
NEBuilder® HiFi DNA Assembly Cloning Kit
  1. NEBioCalculator Thumbnail

    NEBioCalculator® - Using the ds: mass < — > moles module to plan an NEBuilder® HiFi DNA Assembly Reaction

    This tutorial describes the use of the NEBioCalculator web tool module that converts mass to, or from, moles to help plan an NEBuilder HiFi DNA Assembly reaction