Thermo Scientific™ Pierce™ Nylon Membranes

Sheets of unmodified or positively charged Biodyne A and Biodyne B Nylon that provide excellent binding characteristics for nucleic acid transfer, blotting and detection.

Brand: Thermo Scientific™

Manufacturer Part Number: 77015

UNSPSC: 41104921

Code: PN

Additional Details:
Additional Details: Weight: 0.10000kg

Product Code. 10792345

Quantity Price
1 £ 297.0 / Pack of 25
Estimated Shipment date
from Supplier 12-05-2017
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Description and Specification


Formulation Surface contains 50% amino and 50% carboxyl groups
Sufficient For 25 wide format mini-gel blots
Description Biodyne A Nylon Membrane, 0.45um, 8cm x 12cm
Quantity 25 sheets

These two varieties of nylon membrane are manufactured with a similar matrix pore size (0.4 micron), and both are supplied in packages of 8 x 12cm sheets. The Biodyne A Membrane contains both negatively and positively charged groups, enabling it to bind many kinds of macromolecules. The Biodyne B Membrane contains exclusively positive charges, providing the highest possible binding capacity for negatively charged molecules like DNA and RNA. The membranes are resistant to heat and solvents and will not shrink, crack or tear.


  • Versatile and durable – achieve strong DNA binding by baking or UV-crosslinking without damaging the membrane

  • Easy to use – pre-cut 8 x 12cm sheets are the ideal size for standard mini-gel transfers and microplate dot-blots

  • High signal-to-noise ratio – lower background than nitrocellulose and most other nylon transfer membranes

Biodyne A Nylon Membrane

  • Offers superior signal-to-noise ratios resulting in high sensitivities Provides extremely low backgrounds
  • Contains 50% amino and 50% carboxyl groups
  • Provides a hydrophilic surface with an isoelectric point at pH 6.5

Biodyne B Nylon Membrane

  • Surface is modified with Positive Zeta Potential Provides high sensitivities
  • Gives rapid nucleic acid binding without UV light or baking
  • Enhances attraction of negatively charged biological molecules


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