Invitrogen™ GeneArt™ Gibson Assembly EX Master Mix, 200 Reactions
On demandInvitrogen™ GeneArt™ Gibson Assembly EX Master Mix, 200 Reactions
GeneArt Gibson Assembly EX Master Mix enables DNA assembly via a technique that allows multiple overlapping DNA fragments to be seamlessly linked in a single-tube, two-step optimized reaction. DNA fragments of different lengths are uniformly assembled using complementary overlaps between fragments. The inherent flexibility and success of this approach is suitable for small and large DNA constructs, includes both single and multiple inserts, and has been used to build entire genomes. The resulting products can be used for a variety of downstream applications, including transformation, PCR, and rolling circle amplification (RCA). The GeneArt Gibson Assembly EX Master Mix kit includes master mix, positive control, and water, and accommodates the use of your own competent cells.
Features
- Simple—seamlessly assemble and clone up to 15 DNA fragments in a single reaction
- Efficient—robust efficiency provides successful clones for both simple and challenging constructs
- Flexible—design guidelines allow assembly into any vector of your choice
- Convenient—available as master mix kits and cloning kits complete with chemical or electrocompetent cells
- Trusted—over 4000 citations in the scientific literature highlighting great success
Contents
- Master mix
- Positive control
- Water
There are no specifications
There are no report
You May Also Like
Invitrogen™ TOPO™ TA Cloning™ Kit for Subcloning, with One Shot™ TOP10 chemically competent E. coli cells, 50 Reactions
$ On demand
On demand
Invitrogen™ Zero Blunt™ TOPO™ PCR Cloning Kit, with One Shot™ MAX Efficiency DH5α-T1R E. coli, 25 Reactions
$ On demand
On demand
Invitrogen™ TOPO™ TA Cloning™ Kit for Subcloning, without competent cells, 25 Reactions
$ On demand
On demand
Thermo Scientific™ pT7CFE1-NHis-GST Vector for Mammalian Cell-Free Protein Expression
$ On demand
On demand
Invitrogen™ GeneArt™ Gibson Assembly EX Cloning Kit, electrocompetent cells
$ On demand