Nanosep Centrifugal Device, Nucleic Acid Binding, 100/Pk - ODNABC34
Pall Corporation brings decades of membrane engineering expertise to centrifugal molecular separation challenges. Spin-column NAB devices isolate DNA and RNA through a bind, wash, and elute workflow. Quartz glass fiber adsorbs nucleic acids while contaminants pass through while spreading binding across a larger surface and spans genomic DNA, plasmids, and amplicons. Where DNA or RNA must come away from contaminants, the binding matrix carries the isolation through.
Key Characteristics
- Recovers DNA and RNA fragments from fifty to ten thousand base pairs
- Layered glass fiber increases binding surface area for higher capture yield
- Releases purified template under low-salt elution into a clean collection tube
- Dual-layer silica binds nucleic acids by surface adsorption under high salt
- Compatible with guanidine salts and ethanol or isopropanol wash buffers
Isolating clean, concentrated nucleic acid from a crude lysate sets up every molecular assay you run. Reliable nucleic acid capture delivers purified template ready for your assay through a simple bind, wash, and elute spin. Reach out to the Tisch Scientific team for application support, volume pricing, and technical assistance with your product selection.
- Sterility
- Nonsterile
- Wettability
- Hydrophilic
- Amplicon Cleanup - Recovers amplified DNA fragments from reaction mixtures before sequencing or library preparation workflows.
- RNA Isolation - Recovers RNA from lysed samples for reverse transcription, expression analysis, and downstream molecular work.
- Plasmid Cleanup - Isolates plasmid DNA from bacterial lysates ahead of cloning, transfection, and restriction digestion steps.
- Gel Extraction - Recovers DNA fragments excised from agarose gel slices for cloning and downstream molecular applications.
- Nucleic Acid Recovery - Binds and elutes nucleic acids from fifty to ten thousand base pairs in a simple centrifugal workflow.
- DNA Purification - Captures and purifies genomic DNA from cell and tissue lysates for sequencing and amplification workflows.