Ni-NTA Resin, G-Biosciences
Supplier: G-Biosciences
Immobilized Metal Ion Affinity Chromatography (IMAC), developed by Porath (1975), is based on the interaction of certain protein residues (histidines, cysteines, and to some extent tryptophans) with cations of transition metals
This resin has a capacity of 20-40 μM Ni2+/ml resin. The protein binding capacity is >50 mg protein per ml resin. We have demonstrated binding of >100 mg of a 50 kDa 6XHis tagged proteins to a ml of resin. The spin columns are supplied with a resin bed volume of 0.2, 1 and 3 ml with total column volumes of 1, 8 and 22 ml respectively. Columns can be used as a spin format of gravity flow columns. Immobilized IDA Nickel, Copper, Cobalt and Zinc Chelating Resins and Cobalt NTA Resin are also available. Cobalt has the highest selectivity followed by Zinc, Nickel then Copper, but has the lowest binding capacity. Copper has the highest binding capacity, followed by Nickel then Zinc.
The Ni-NTA Resin is specifically designed for the purification of recombinant proteins fused to the 6 x histidine (6xHis) tag expressed in bacteria, insects, and mammalian cells. The resin is high affinity and selectivity for recombinant fusion proteins that are tagged with six tandem histidine residues. The Ni-NTA resin can be used to purify 6x His tagged proteins under native and denaturing conditions. Proteins bound to the resin can be eluted with low pH buffer or competition with imidazole or histidine. The Ni-NTA resin uses nitrilotriacetic acid (NTA), a tetradenate chelating ligand, in a highly cross-linked 6% agarose matrix. The NTA binds Ni2+ ions by four coordination sites.
Información para pedidos: Accessory Kit includes plug and case.
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