Please login to your online account to display your discounted pricing

GE Healthcare nProtein A Sepharose™ 4 Fast Flow Affinity Media

Used for purification of monoclonal and polyclonal antibodies.   GE Healthcare Lifescience™ nProtein A Sepharose™ 4 Fast Flow Affinity Media contains native protein A coupled to Sepharose 4 Fast Flow.

$586.52 - $4,167.64

Specifications

Binding Capacity >35mg Human IgG/mL
Particle Size 90μm
Product Type nProtein A Sepharose 4 fast flow media
Flow Rate 150 to 250cm/Hour
Height (English) Bed 9.84 in.
View More Specs
Products
Catalog Number Mfr. No. For Use With (Application) Quantity pH Range Price Quantity    

45-002-981

 
ge healthcare
17528001
For purifiCatIon of monoclonal and polyclonal antibodies 5mL 3 to 9 Each for $586.52

45-002-982

 
ge healthcare
17528002
For the purifiCatIon of monoclonal and polyclonal antibodies at both laboratory and process scale 200mL 2 to 10 Each for $4,167.64

45-002-983

 
ge healthcare
17528004
For the purifiCatIon of monoclonal and polyclonal antibodies at both laboratory and process scale 25mL 2 to 10 Each for $2,046.00
Description & Specifications

Specifications

Binding Capacity >35mg Human IgG/mL
Particle Size 90μm
Product Type nProtein A Sepharose 4 fast flow media
Flow Rate 150 to 250cm/Hour
Height (English) Bed 9.84 in.
Height (Metric) Bed 25cm
Ligand Type Native Protein A (S. aureus)
Matrix 4% Cross-Linked Agarose
Max. Pressure 100kPa
Stability No significant change in chromatographic performance after 1 week storage using 8M Urea, 6M Gua-HCI, 2% Benzyl Alcohol or 20% Ethanol
Storage Buffer 20% Ethanol
Storage Requirements 2 to 8°C

  • Low leakage of protein A with nearly twice total IgG binding capacity of Protein A Sepharose CL-4B
  • Used in large-scale FDA-approved processes
  • Manufactured without using animal-derived components
  • Rigidity and high degree of substitution of Sepharose 4 Fast Flow matrix facilitates speedy process of large volumes dilute cell culture fluid
  • High chemical, thermal and mechanical stability
  • Withstands high concentrations of hydrogen bond disrupting agents