missing translation for 'onlineSavingsMsg'
Learn More

Thermo Scientific™ UltraLink™ Biosupport

Covalently immobilize proteins and other primary amine biomolecules for affinity purification with this durable, azlactone-activated polyacrylamide resin.

277.00 EUR - 956.00 EUR

Specifications

Capacity (Metric) 18 mg of Myoglobin Coupling per mL Resin
Content And Storage Storage: Upon receipt store product at 4°C with desiccant. Product is shipped at ambient temperature
Particle Size 50 to 80 μm
Product Line UltraLink™
Target Antibody, Proteins through Primary Amine
View More Specs

Products 2
Product Code Brand Quantity Price Quantity & Availability  
Product Code Brand Quantity Price Quantity & Availability  
11849390
View Documents
Thermo Scientific™
53110
1.25 g
277.00 EUR
Each
Please to purchase this item. Need a web account? Register with us today!
11859390
View Documents
Thermo Scientific™
53111
6.25 g
956.00 EUR
Each
Please to purchase this item. Need a web account? Register with us today!
Description

Description

Thermo Scientific™ UltraLink Biosupport is a durable polyacrylamide resin activated to enable the efficient and direct covalent immobilization of proteins and other biomolecules through their primary amines for use in affinity purification procedures.

UltraLink Biosupport is an alternative to CNBr- and NHS-activated agarose resins for immobilizing antibodies and other proteins to prepare affinity columns. The beaded resin is a hydrophilic copolymer of polyacrylamide and azlactone having a rigid polymeric structure with high surface area and pore volume. The azlactone groups react rapidly and efficiently with primary amines (e.g., side chain of lysine residues) to covalently immobilize protein or other amine-containing ligands. The bead structure and efficient coupling chemistry of UltraLink Biosupport results in high protein binding capacity, high linear flow rates, low nonspecific binding and overall superior performance in affinity chromatography. UltraLink Resins are ideal for medium pressure applications such as FPLC.

Highlights:

  • High coupling efficiency and capacity – immobilizes proteins with very high efficiency and coupling capacity in one hour

  • Specific and leak-proof coupling chemistry – reacts specifically with primary amines (-NH2), resulting in amide bonds that are stable for use in many affinity purification procedures; coupling reaction has no leaving group to contaminate samples

  • Easy to use – no pre-swelling or secondary reagents required; simply weigh the needed amount of dry support and add the ligand solution to initiate coupling reaction

  • Flexible coupling conditions – perform immobilization reaction in any of a variety of non-amine buffers and pH levels; coupling is most efficient in buffers containing a lyotropic salt such as sodium citrate; coupling compatible with or without organic solvent

  • Excellent reusability – prepared affinity resin can be used with typical binding and elution procedures for more than 100 cycles of affnity purification without significant loss of binding capacity

  • Durable, high-performance resin – porous beads have a 60μm diameter, can withstand 100 psi (6.9 bar) and allow for linear flow-through rates of 3000cm/hour

Properties of UltraLink Biosupport:

  • Alternative names: 3M Emphaze Biosupport Medium AB1
  • Matrix: Polyacrylamide/azlactone copolymer
  • Particle size: 50 to 80μm
  • Maximum pressure: 100psi (6.9 bar)
  • Maximum linear flow rate: 3000 cm/hour
  • Coupling capacity: >18mg of myoglobin per milliliter of settled resin
  • Leaving group in coupling reaction: None
  • Bond formed: Amide bond
  • Spacer arm: 5 atoms
Specifications

Specifications

18 mg of Myoglobin Coupling per mL Resin
50 to 80 μm
Antibody, Proteins through Primary Amine
Azlactone
Affinity, UltraLink™ Resin
Storage: Upon receipt store product at 4°C with desiccant. Product is shipped at ambient temperature
UltraLink™
Biosupport
Bottle
Videos
SDS
Documents

Documents

Product Certifications

For Research Use Only. Not for use in diagnostic procedures.