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- +1 858 909 0079
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Products
Cat. No.
Product Name
Unit Size
Order
Specification
Composition
Magnetic beads grafted with cleavable NHS group on the surface.
Number of Beads
~ 1.68 x 109 beads/mg (1μm beads)
~1.47 x 108 beads/mg (2.5μm beads)
Stability
Short Term (<1 hour): pH 3-11; Long-Term: pH 4-10
Temperature: 4°C -140°C; Most organic solvents
Magnetization
~40-45 EMU/g
Type of Magnetization
Superparamagnetic
Formulation
Lyophilized Powder
Functional Group Density
1μm Magnetic Beads
~250 μmole / g of Beads
2.5μm Magnetic Beads
~235 μmole / g of Beads
Storage
Ship at room temperature. Store at -20°C, free of moisture upon receipt
The amine group (-NH2) is the most common functional target for immobilizing protein molecules: This group can be found at the N-terminus of each polypeptide chain (called the alpha-amine) and in the side chain of lysine (Lys, K) residues (called the epsilon-amine). Because of their positive charge under physiological conditions, primary amines are frequently outward-facing (i.e., on the outside surface) of proteins; hence, they are usually available for conjugation without denaturing the protein structure.
BcMag™ Cleavable NHS-Activated Magnetic Beads are uniform magnetic beads coated with a high density of cleavable NHS (N-hydroxyl succinimide) functional groups on the surface. The magnetic resin utilizes reliable NHS-ester chemistry and does not require the use of dangerous chemicals for immobilization. The beads have less nonspecific binding and no leaking of the coupled ligand. The resin can quickly, efficiently, and covalently conjugate any primary amine-containing ligands by forming stable amide linkages with better than 85% coupling efficiency. Bioclone Cleavable NHS-Activated Magnetic Beads reactions take less than an hour (15–30 min at room temp pH 7–9, 4 hours at 4 °C) and produce more stable linkages substantially. Since the active NHS group is linked with the beads through a built-in cleavable disulfide linker (Fig.1), reducing agents such as DTT or β-mercaptoethanol can cleave and separate the target molecule-ligand complex from the beads. Moreover, the hydrophilic surface ensures low nonspecific adsorption, excellent dispersion, and easy handling in various buffers.
The Beads work perfectly as affinity resin for affinity purification to refine molecules, cells, and parts of cells into purified fractions. After conjugation with ligands, add the beads to a sample containing the target molecules, then mix, incubate, wash and elute the target molecules.
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Pre-activated and ready-to-use
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Cleavable built-in disulfide bond allowing the ligand-target molecule complex separated from the beads
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Easy to use
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A quick coupling in pH 7.4 at 4°C to 25°C
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Stable covalent bond with minimal ligand leakage
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Produces reusable immunoaffinity matrices
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Low nonspecific binding
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Immobilize 15-20 µg protein /mg beads
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Applications: Affinity purification, immunoprecipitation, purification for Antibodies, Proteins/Peptides, DNA/RNA
Note:
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This protocol can be scaled up as needed. We strongly recommended titration to optimize the number of beads used for each application.
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Avoid reducing agents, tris, or other buffers containing primary amines or other nucleophiles because these will break the disulfide linker or compete with the intended coupling reaction. But the wash or storage buffers can contain amino or carboxyl groups.
A.
Materials Required
1.
Magnetic Rack (for manual operation)
Based on sample volume, the user can choose one of the following Magnetic Racks:
– BcMag™ Magnetic Rack-2 for holding two individual 1.5 ml centrifuge tubes (Cat. No. MS-01);
– BcMag™ Magnetic Rack-6 for holding six individual 1.5 ml centrifuge tubes (Cat. No. MS-02);
– BcMag™ Magnetic Rack-24 for holding twenty-four individual 1.5-2.0 ml centrifuge tubes (Cat. No. MS-03);
– BcMag™ Magnetic Rack-50 for holding one 50 ml centrifuge tube, one 15 ml centrifuge tube, and four individual 1.5 ml centrifuge tubes (Cat. No. MS-04);
– BcMag™ Magnetic Rack-96 for holding a 96 ELISA plate or PCR plate (Cat. No. MS-05).
2.
Coupling Buffer: 0.1 M Sodium phosphate, 0.15 M NaCl, pH 7.4
3.
Wash Buffer: 0.05 M Tris-HCl, 0.5 M NaCl, pH 8.0.
4.
Blocking Buffer: 1 M ethanolamine, pH 9
B.
Beads Preparation
1.
Prepare 3% magnetic beads with 100% acetone (30 mg/ml). Note. Store the unused beads in acetone solution at 4°C. It has been stabling for over a year.
2.
Transfer 100 μl (3mg) magnetic beads to a centrifuge tube.
3.
Place the tube on the magnetic rack for 1-3 minutes. Remove the supernatant while the tube remains on the rack. Remove the tube from the rack and resuspend the beads with 1 ml coupling buffer by vortex for 30 seconds.
4.
Repeat step 3 two times.
5.
Remove the supernatant, and the washed beads are ready for coupling.
Note: Once rehydrated, use the bead as soon as possible due to the stability of the functional group.
C.
Coupling
Note: Coupling efficiencies to NHS-activated magnetic beads vary from ligand to ligand. The user should empirically optimize the concentration of the ligand. For small peptides, the ligand concentration should be at least 200 μmoles per ml. 0.5-10 mg/ml is recommended for protein conjugation.
1.
Dissolve 0.5-10 mg protein in 1 ml coupling buffer.
2.
Add 100 μl of the protein solution to the beads. Resuspend the magnetic beads and mix very well by pipetting or vortexing. Incubate the reaction with continuous rotation at room temperature for 4-6 hours or overnight.
Note: The user should optimize the incubation time.
3.
Place the tube on the magnetic rack for 1-3 minutes. Remove the supernatant while the tube remains on the rack. Remove the tube from the rack and resuspend the beads with 1 ml wash buffer by vortex for 30 seconds. Place the tube on the magnetic rack for 1-3 minutes. Remove the supernatant while the tube remains on the rack.
4.
Wash beads 3-4 times with 1 ml wash buffer (or 1 M NaCl).
5.
Add 0.5-1ml blocking buffer (PBS can also block beads, pH7.4, 0.1% BSA) to the beads and incubate at room temperature for 1 hour or at 4 °C overnight.
6.
Wash the beads with 1ml of cold Wash buffer 3 times.
7.
Resuspend the beads in PBS buffer, pH 7.4, 0.1% BSA, and 0.01% azide (w/v) to desired concentration and store at 4°C until use. Do not freeze.
D.
General affinity purification Protocol
Note:
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This protocol is a general affinity purification procedure. Designing a universal protocol for all protein purification is impossible because no two proteins are precisely alike. The user should determine the optimal working conditions for purifying the individual target protein to obtain the best results.
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Avoid reducing agents in all the buffers.
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We strongly recommended titration to optimize the number of beads used for each application based on the amount of the target protein in the crude sample. Too many magnetic beads used will cause higher backgrounds, while too few beads used will cause lower yields. Each mg of magnetic beads typically binds to 10-20 μg of the target protein.
1.
Transfer the optimal amount of the beads to a centrifuge tube. Place the tube on the magnetic rack for 1-3 minutes. Remove the supernatant while the tube remains on the rack.
2.
Remove the tube and wash the beads with 5-bed volumes of PBS buffer by vortex for 30 seconds. Leave the tube at room temperature for 1-3 minutes. Place the tube on the magnetic rack for 1-3 minutes. Remove the supernatant while the tube remains on the rack.
3.
Repeat step 2 two times.
4.
Add washed beads to the crude sample containing the target protein and incubate at room or desired temperature for 1-2 hours (Lower temperatures require longer incubation time).
Note: Strongly recommended to perform a titration to optimize incubation time. More prolonged incubation may cause higher background.
5.
Note: Adding a higher concentration of salts, nonionic detergent, and reducing agents may reduce the nonspecific background. For example, adding NaCl (up to 1-1.5 M), and 0.1-0.5% nonionic detergents such as Triton X100 or Tween20 to the washing buffer.
6.
Elute the target protein by appropriate methods such as low pH (2-4), high pH (10-12), high salt, high temperature, affinity elution, or boiling in SDS-PAGE sample buffer, or reducing agents.
7.
Cleave the Disulfide Bond
Note: Due to conformational variation from ligands to ligands, the user should determine the optimal working conditions such as reducing agent, pH, and temperature for cleaving the disulfide bond of individual ligands. The following is an example of cleaving conjugated GFP from the beads.
1)
Incubate the magnetic beads (30mg/ml) in either 140 mM β-mercaptoethanol or 5mM DTT (Dithiothreitol)
a. 100 mM Tris-HCl, pH 8.0, 50 mM EDTA, 140 mM β-mercaptoethanol for 2 hours to overnight at room temperature or 98°C for 5 minutes.
b. 100 mM Tris-HCl, pH 8.0, 50 mM EDTA, 5mM DTT for 2 hours to overnight at room temperature or 98°C for 5 minutes.
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