High throughput - multiplex - single tube - isothermal - seamless - DNA assembly for everybody!

Gibson Assembly is a high-efficiency DNA end-linking technique developed by Daniel Gibson at the JCVI in 2009 [Gibson et al. 2009 plus supplementary methods]. The technique was invented and perfected as part of the genome assembly efforts at JCVI. The method uses three enzymes to join two or more sequences of DNA when they have overlapping end sequences at their joining point (~40bp). These overlapping regions can be easily added to the ends of any length of DNA by using PCR with primers which have added adapter sequences. Thus PCR followed by Gibson Assembly allows you to join any two blunt ended pieces of DNA. Up to 10-20 different pieces of DNA can be neatly spliced together in one reaction using these techniques.
1) No scar created - useful for fusion proteins and adding an RBS, where scars can be problematic.
2) Can re-ligate linear DNA into a circle - useful for site-directed mutagenesis
3) Any two blunt ended pieces of DNA can be joined, and DNA can be taken from any source which is accessible to PCR (for example, an organism's genome)
4) Although it is roughly the same speed as standard BioBrick assembly when ligating two fragments, Gibson Assembly comes into its own when assembling multi part systems, since it takes the same amount of time to ligate n pieces of DNA together as it does for two pieces.

1) Primers must be ordered in advance
2) Additional cost of custom primers

In our hands at the University of Cambridge, the method has proved robust and efficient, and has effectively replaced restriction enzyme- DNA ligase style cloning, including standard BioBrick assemblies.
Stacks Image 522
Fit My Video Tag
Video guide to Gibson Assembly by the University of Cambridge iGEM2010 Team.
Stacks Image 523
The DNA parts need to be chosen from available sequences. Adjoining DNA fragments need to be altered to have 40bp of overlap at the point of joining. The standard way to do this is with PCR with specialised primers. The Gibthon software tool is designed to aid the design process. Custom oligonucleotides are then ordered for synthesis.
Stacks Image 525
The custom oligos are used to amplifiy each DNA part, and to add an extra 20 base pairs of sequence at each terminus. This produces a series of fragments with overlapping sequence homology.
Stacks Image 526
The amplified DNA parts are fractionated by agarose gel electrophoresis, bands excised, and DNA purified by batch-wise solid-state affinity chromatography.
Stacks Image 527
For the Gibson Assembly reaction, purified DNA fragments are combined with a Gibson Master Mix containing T5 exonuclease, Phusion DNA polymerase and Taq ligase. The reaction is incubated for 1 hour at 50°C

Stacks Image 528
After incubation, the Gibson Assembly reaction mixture should contain covalently closed circular DNA - multiple DNA parts linked to vector, which can be used for direct transformation of host cells.
These pages provide an open guide to the technique. We think that the method is of potential use to anyone engaged in DNA assembly and cloning. This is an ongoing effort - we are keen to explore ways of standardising DNA assembly and making biological engineering more efficient. In particular, we are keen to explore low cost education solutions for robotics, reactants and instrumentation.

Dr. Jim Haseloff, University of Cambridge (www.haseloff-lab.org and www.synbiostandards.co.uk)
Dr. Dean Madden, National Centre for Biotechnology Education (www.ncbe.reading.ac.uk)
Dr. Duncan Rowe, SABIC, KAUST, Saudi Arabia
Dr. Fernan Federici, PJ Steiner and James Brown, University of Cambridge.
Dr. Jim Ajioka, University of Cambridge (www.path.cam.ac.uk/research/investigators/ajioka/)
Dr. Emma Frow and Dr. Alistair Elfick, University of Edinburgh (www.synbiostandards.co.uk)
Stacks Image 529
...and especially - Bill Collins, Haydn King and the members of the University of Cambridge iGEM2010 and iGEM2011 Teams.

Bill Collins contributed the development of a series of web-based tools for DNA assembly, including Gibthon - a software tool for automated design of the oligonucleotides required for Gibson Assembly. Gibthon, instruction video and background information can be found at: www.gibthon.org