Biodyne® Nylon Transfer Membranes, Pall Laboratory

Supplier: Pall Laboratory
Biodyne® A Biodyne® Plus Biodyne® Biodyne® C Biodyne® B
60106 60106 60201 60207 60400 60336 60315 60113 60207 60314 60314 60208 60200 60208 60404 60406 60315 60406 60200 60113 60404 60201 60336 60400
28150-274EA 654.65 USD
28150-274 CA28150-274 28150-292 CA28150-276 28150-288 CA97109-798 28150-294 CA28150-270 28150-276 CA28150-286 28150-286 CA28150-332 CA28150-284 28150-332 75796-500 28150-280 CA28150-294 CA28150-280 28150-284 28150-270 CA28150-320 CA28150-292 97109-798 CA28150-288
Biodyne® Nylon Transfer Membranes, Pall Laboratory
Transfer Membranes
High sensitivity and low background for enhanced detection and resolution.

  • Will not crack, shrink, or tear when subjected to multiple cycles of hybridization, stripping, and reprobing
  • Membranes are intrinsically hydrophilic for easy wetting
  • Offers superior performance with radioactive (Biodyne B membrane) and non-radioactive (Biodyne A membrane) detection systems

Four Chemistries Provide Versatile Adsorption Properties:
Biodyne A Membrane - (Amphoteric Nylon 6,6) Membrane zeta potential can be modulated by changes in pH. Ideal for single probe or multiple rehybridizations, and applications where background is troublesome.
Biodyne B Membrane - (Positively-charged Nylon 6,6) Pore surfaces are populated by a high density of quaternary ammonium groups. Our highest sensitivity nylon membrane for nucleic acid applications.

Biodyne C Membrane - (Negatively-charged Nylon 6,6) Can be derivatized by coupling reactions through the carboxyl groups on the pore surfaces.

Biodyne Plus Membrane - (Positively-charged Nylon 6,6 with an extremely high isoelectric point) With certain nonradioactive detection systems, it is more sensitive than Biodyne A membrane while exhibiting lower background than Biodyne B membrane.
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