missing translation for 'onlineSavingsMsg'
Learn More
Please login to your online account to display your discounted pricing

Cytiva (Formerly GE Healthcare Life Sciences) Whatman™ Protran™ Nitrocellulose Blotting Membranes: 0.45μm BA85 Protran Circles

100% pure nitrocellulose to ensure the highest binding capacity possible

$169.63 - $1,347.65

Specifications

Binding Capacity High
Format Circle
For Use With (Application) Suitable for radioactive, colorimetric, fluorescent, and chemiluminescent detection
Material Nitrocellulose
Pore Size 0.45 μm
View More Specs

Products 4
Catalog Number Mfr. No. Diameter (Metric) Quantity Price Quantity  
Catalog Number Mfr. No. Diameter (Metric) Quantity Price Quantity  
09-301-102
View Documents
Cytiva (Formerly GE Healthcare Life Sciences)
10401116
82 mm 50/Pk. Pack of 50 Each for $369.88
 
09-301-129
View Documents
Cytiva (Formerly GE Healthcare Life Sciences)
10402506
25 mm 100/Pk. Pack of 100 Each for $169.63
 
09-301-130
View Documents
Cytiva (Formerly GE Healthcare Life Sciences)
10402525
132 mm 50/Pk. Pack of 50 Each for $694.55
 
09-301-132
View Documents
Cytiva (Formerly GE Healthcare Life Sciences)
10402578
25 mm 1000/Pk. Pack of 1000 Each for $1,347.65
 
Description

Description

  • Universal membrane suitable for Western, Southern, and Northern blotting
  • Hydrophilic, so no prewetting with methanol is required
  • High binding capacity and very low background for superior signal-to-noise ratios without stringent washing conditions
  • Compatible with all common detection methods, including radioactive, colorimetric, fluorescent, and chemiluminescent
  • Provide excellent shelf-life for proteins—proteins maintain molecular recognition activity for up to five years on Protran membranes
  • Three pore sizes available—0.45μm is ideal for larger molecular weight samples, 0.2μm ensures binding of samples below 20kDa, 0.1μm is used for molecules below 7kDa

Specifications

Specifications

High
Suitable for radioactive, colorimetric, fluorescent, and chemiluminescent detection
0.45 μm
Circle
Nitrocellulose