Four E's USA, MRK100216, Magnetic Bead Separation Rack for 16x1.5ml Tubes
Features:
- Temperature setting up to 100°C
- Easy-to-read LED display
- Interchangeable blocks for multiple tube types
- Compact design with Actual and Set Temp display
- Can store up to 5 temperature control programs
- Low voltage operation, can be powered with a car charger
Four E's USA magnetic bead separation racks are used for paramagnetic bead-based separations. Magnetic beads are used in a variety of lab processes including nucleic acid purification, cell-based assays, antibody purification, and protein purification. These high-quality anodized aluminum racks are excellent for microtubes, also called microcentrifuge tubes, and were designed to optimize the recovery of proteins or other biological structures.
Designed Specifically for Your Lab
Four E's Manufactures some of the highest quality magnetic bead separation racks and offers them at affordable pricing. These aluminum racks feature the strongest rare earth magnets, precise design, and nonskid feet. Crafted for magnetic separation experiments, these robust racks effectively isolate magnetic beads, allowing the addition or removal of affinity ligands (such as antibodies, streptavidin, or proprietary reagents for coupling nucleic acids) and rinse solutions in assays.
Built to Last
4E's designs engineers and biologists design equipment that works well and lasts. Plastic racks tip, break, and magnets can fall out. The high-quality quality affordable magnetic separation racks are designed for optimal recovery. Understanding the magnetic properties and location of the magnet is key to separation. Four E's Magnetic racks are used in biology to efficiently isolate, purify, and manipulate biomolecules, cells, and particles. They are commonly used for DNA/RNA purification, protein purification, and cell isolation, employing magnetic beads coated with specific ligands or antibodies to selectively capture target molecules or cells. These racks also find applications in drug discovery, biomolecule labeling, and high-throughput screening assays. Additionally, they aid in washing and buffer exchange steps, making them versatile tools for various biological research and diagnostic processes.
Don't Compromise on Marcomolecule Recovery
The location and the shape of the magnet are essential to optimal recovery of proteins and nucleic acids. It's important to note that the shape of a magnet does not change its fundamental magnetic properties, such as the strength of its poles or its magnetic moment. However, the shape affects how the magnetic field lines are distributed and concentrated, which can influence the magnet's practical applications and interactions with magnetic beads.
