PVDF Blotting Membranes, 0.2 µm, 7 cm x 9 cm, 10/pk - BSP0158
Pall Corporation engineers the FluoroTrans PVDF membrane to immobilize electrotransferred proteins with high binding capacity and very low burn-through. PVDF transfer membranes capture electrophoretically transferred proteins for Western detection. The PVDF membrane suits Western detection and protein sequencing and holds bound proteins firmly through detection. For high-molecular-weight proteins and sequencing, PVDF immobilizes the target for reliable detection.
Key Characteristics
- Compatible with chemiluminescent, colorimetric, and fluorescent detection
- Hydrophobic surface activates with a brief methanol step before transfer
- Retains bound protein under SDS, urea, and organic-solvent wash conditions
- High protein binding captures and holds transferred proteins for sensitive detection
- Well suited to high-molecular-weight proteins and protein sequencing
Reliable protein capture across the membrane keeps your immunodetection sharp from transfer to signal. Dependable protein capture holds your transferred targets through detection across electrophoretic and semi-dry transfer. Reach out to the Tisch Scientific team for volume pricing and technical support on your transfer membranes.
- Dimensions
- 7cm x 9cm
- Material
- Polyvinylidene Fluoride (PVDF)
- Sterility
- Nonsterile
- Wettability
- Hydrophobic
- Stripping and Reprobing - Withstands repeated stripping and reprobing cycles for multi-target analysis on a single membrane.
- Phosphoprotein Detection - Retains bound protein under stringent washes for phospho-specific antibody immunodetection assays.
- Protein Sequencing - Immobilizes proteins on a chemically stable membrane for N-terminal sequencing and downstream analysis.
- Quantitative Western - Supports reproducible, high-capacity protein capture for quantitative fluorescent Western workflows.
- High-MW Protein Transfer - Holds high-molecular-weight proteins through transfer and detection with high binding capacity.
- Western Blotting - Captures electrophoretically transferred proteins for chemiluminescent and fluorescent immunodetection.