Gibson Assembly Kits
The Gibson Assembly® method is the world’s most trusted technique to build seamless, high-fidelity DNA, with over 4,000 citations and counting.
The Gibson Assembly® method is the world’s most trusted technique to build seamless, high-fidelity DNA, with over 4,000 citations and counting.
Kinase
A group of enzymes that catalyze the transfer of phosphate groups.These serine/threonine kinases belongs to a family of p21-activated kinases. They serve as targets for the small GTP binding proteins Cdc42 and Rac and have been implicated in a wide range of biological activities
A group of enzymes that catalyze the transfer of phosphate groups.These serine/threonine kinases belongs to a family of p21-activated kinases. They serve as targets for the small GTP binding proteins Cdc42 and Rac and have been implicated in a wide range of biological activities
Metabolism Assay Kit
We offer variety of easy and simple-to-follow, affordable metabolism assay kits for your research.
We offer variety of easy and simple-to-follow, affordable metabolism assay kits for your research.
Nuclease
Ideal nuclease with exceptional high specific activity to digest nucleic acids in protein purification and sample preparation.
Ideal nuclease with exceptional high specific activity to digest nucleic acids in protein purification and sample preparation.
RapidAMP Kits
Build and amplify complex DNA constructs quickly with Gibson Assembly® RapidAMP™ kits. Begin with a linearized vector — plus up to three linear DNA insert fragments, 300 bp to 1,800 bp each — and assemble via Gibson Assembly® technology to generate a circular cloning product.
Build and amplify complex DNA constructs quickly with Gibson Assembly® RapidAMP™ kits. Begin with a linearized vector — plus up to three linear DNA insert fragments, 300 bp to 1,800 bp each — and assemble via Gibson Assembly® technology to generate a circular cloning product.
Vmax X2 cells
Vmax® X2 chemically competent cells are a next-generation bacterial expression system, doubling two times faster than E. coli, and generating significantly greater amounts of biomass and protein per volume of cells. They are engineered to retain the benefits of traditional bacterial protein expression systems.
Vmax® X2 chemically competent cells are a next-generation bacterial expression system, doubling two times faster than E. coli, and generating significantly greater amounts of biomass and protein per volume of cells. They are engineered to retain the benefits of traditional bacterial protein expression systems.