Introduction

Intended Use

The Dynabeads and buffers provided in this kit will enable you to covalently immobilize antibodies (or other protein ligands such as lections, functional enzymes, etc.) of your choice onto the surface of Dynabeads. Antibody-coupled Dynabeads can then be used for downstream assays and experiments. Once the coupling reaction has been completed the resulting Dynabeads surface will exhibit ultra-low background binding. It is therefore not necessary to block the bead surface prior to use. For best results, please read through this material carefully prior to start.

Principle

Antibodies (Ab) (or other protein ligands) of your choice are covalently coupled to the provided Dynabeads. Once antibodies have been coupled to the Dynabeads, the antibody coupled Dynabeads may then be used for immunoassays, immunoprecipitation, co-immunoprecipitation of protein complexes, co-immunoprecipitation of protein-nucleic acid complexes, as well as many other downstream applications. Other downstream assays could include those requiring proteins such as lectins, enzymes, or others to be coupled to the Dynabeads in stead of antibodies. Captured proteins, protein complexes and protein-nucleic acid complexes are easily separated from lysate using magnetic separation properties of Dynabeads. Magnetic separation facilitates washing, buffer changes and elution.  Antibody-to-bead coupling works optimally with purified antibodies, although the coupling reaction also works well with antibodies in storage buffers that include protein additives (e.g. BSA) and/or sodium azide (NaN3). This kit is not recommended for use with antibodies that have been stabilized in glycerol

Other protein ligands (e.g. lectins, enzymes, etc.) can be covalently coupled to the surface of Dynabeads using the same beads, buffers and protocol provided in this kit.

Materials Supplied

Reagents are analytical grade and are compatible with protease & phosphatase inhibitors. All kit components can be stored between 2 °C and room temperature.

Dynabeads® M-270 Epoxy (> 60 mg)

• C1 (20 ml)           • LB (15 ml)
• C2 (8 ml)             • HB (15 ml)
• SB (40 ml)

Additional Materials Required

• Magnet: e.g. DynaMag™-2   (see www.lifetechnologies.com/magnets).
• Mixer allowing rotation or tilting of tubes.
• Antibodies or other proteins to be coupled (of your choice).

Ordering Information

Catalog # Name Size List Price (USD) Qty
14311D Dynabeads® Antibody Coupling Kit 1 kit 475.00

Antibody Coupling Considerations

Optimal Antibody Use

Antibody coupling to Dynabeads is most efficient when using low quantities of antibody per mg beads (5-10 μg antibody per mg of beads). This same general rule applies when coupling other proteins (e.g. lectins, enzymes, etc.) although the “optimal coupling range” may differ for different ligands. For some assays, saturation of the Dynabeads with antibodies or other proteins (hereafter referred to collectively as “ligand”) may be desirable. In such cases the excess coupled ligand may provide an increased blocking effect on the bead surface, potentially reducing non-specific binding even further. Using excess ligand in the coupling reaction will significantly increase the ligand consumption, along with the potential for (non-covalently) adsorbed ligand to “leak” off the beads. To help prevent any “leakage” of non-coupled (non-covalently bound) ligand in the downstream assay, a couple of additional bead washing steps can be performed at the end of the coupling protocol. These washes will help to remove non-coupled ligands from the beads using a buffer appropriate to your ligand (e.g PBST)

Note: We recommend including 0.01% - 0.1% Tween in wash buffers


Antibody (OR Ligand) Selection

The choice of antibody (or other protein, e.g. lectin, enzyme, etc.) is the most important factor for successful target capture. Note that not all antibodies are suitable for all applications. While a particular antibody (or lectin, enzyme, etc.) may recognize and bind to (or cleave, phosphorylate, etc.) its target in some applications (e.g. Western Blotting), there is no guarantee that the same antibody, will function well in an immunoassay or in immunoprecipitation or co-immunoprecipitation. Please refer to the manufacturer’s recommendations regarding your ligand.


Antibody Additives

Sodium Azide (NaN3)

Many commercially available antibodies contain NaN3 as preservative. The presence of NaN3 can lead to a small decrease (<10%) in antibody coupling efficiency. This will not be a problem for most applications. Furthermore, if desired this can be easily compensated by slightly increasing the quantity of antibody used in the coupling reaction. Alternatively the NaN3 can be removed prior to coupling by standard gel filtration chromatography or dialysis.

Antibody Stabilizing Proteins  

Some commercially available antibodies (proteins and enzymes) contain protein additives such as BSA or Gelatin. Protein additives present during the coupling reaction will be coupled to the bead surface along with antibody (or other input protein). The presence of protein additives will not affect antibody coupling efficiency if the total quantity of protein (antibody + protein additive) in the coupling reaction does not exceed the capacity of the beads. In the case of BSA or Gelatin, the coupled proteins may provide a beneficial blocking effect but may also result in the coisolation of BSA or Gelatin interacting proteins.

Glycerol

Coupling of antibodies or other proteins stabilized in glycerol is not recommeded. Although it is possible to couple such ligands, the antibody (or protein) function may be severely affected.


Function and Stability of Antibodies and Ligands coupled to Dynabeads

Different antibodies, proteins, enzymes, etc. have different characteristics. Even different antibody clones raised in the same species against the same antigen can vary greatly in pI, antigen binding affinity, and stability. Consequently the coupling efficiency will vary slightly between different batches of antibodies, proteins & enzymes. Furthermore, some coupled ligands will retain their function for months, even years when stored properly, while others will loose their function within several weeks. These are entirely ligand dependent.

Antibody Quantity

The quantity of Dynabeads used for coupling will depend upon the number and scale of the downstream assays to be run. Antibody (or other protein ligand) coupling reactions should be scaled as outlined in TABLE 1. For best immunoprecipitation and coimmunoprecipitation results, coupling of 5 μg to 7 μg antibodies per mg Dynabeads is recommended for high affinity antibodies. For best results in immunoassays or other downstream assays involving the coupling of antibodies or lectins or other proteins to Dynabeads, the optimal μg of input ligand may vary according to the ligand and the assay. Coupling of more antibodies per mg Dynabeads may be necessary if the antibody affinity is poor. Typically, for immunoprecipitation and co-immunoprecipitation of protein complexes with analysis by silver staining or Western blotting, 1.5 mg of antibody-coupled beads are used. For the detection by Coomassie staining, 7.5 mg of antibody coupled beads are used.

If ligand cost is not a factor, we recommend that you begin by using 20 μg – 30 μg ligand per milligram Dynabeads® M-270 Epoxy.

Antibody Aggregates and Antibody Leakage

The presence of antibody aggregates in the antibody stock used for coupling can result in antibody leakage during the downstream assay. To help reduce this we recommend that antibody aggregates be removed from the antibody stock by centrifugation at 16,000 × g for 10 min at 4ºC.

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Antibody Coupling Protocol

Note:  the following protocol may be used for coupling antibodies or other proteins (such as lectins, functional enzymes, etc.) to the included Dynabeads® M-270 Epoxy.

             Day 1

  1. Weigh out the appropriate amount of Dynabeads® M-270 Epoxy (according to Table 1).

    Moisture on unused beads will deactivate the reactive groups necessary for covalent antibody coupling. To avoid condensation on unused beads, make sure the beads are at room temperature prior to opening the bottle.

    Table 1:  Calculation of Antibody and C1 Volumes
                                                                             



    Volume        in         µl
    Beads (mg)AntibodyC1C2Total Reaction Volume
    5V250-V250500
    10W500-W5001000
    20X1000-X10002000
    40Y2000-Y20004000
    60Z3000-Z30006000

    Rule of Thumb: The total reaction volume (C1 -  µl  Ab + C2 ) should be 100 µl  per mg beads. The C1 + Ab volume is equal to C2 volume.

  2. Wash the beads: Add 1 ml of C1 to the beads and mix by vortexing or pipetting.

  3. Place the tube on a magnet and allow the beads to collect at the tube wall. Remove the supernatant.

  4. Add the appropriate volume of antibody + C1 (according to Table 1) to the washed beads and mix by vortexing or pipetting.

    Example: If you are coupling 5 mg Dynabeads and your required quantity of antibodies has a volume of 100 μl, you will need to add 150 μl of C1 (i.e. 250μl C1 – 100μl Ab = 150μl.)

  5. Add the appropriate volume of C2 and mix by vortexing or pipetting.

  6. Incubate on a roller at 37°C overnight (16-24 hours). Make sure the fluid in the tube is mixing well. Make sure the beads do not settle. Beads settling during the overnight incubation will result in inefficient antibody coupling.

  7.       Day 2

  8. Place the tube on a magnet. Allow the beads to collect at the tube wall. Remove the supernatant.

  9. Beads (mg)AntibodyC1C2Total Reaction Volume
    5V250-V250500
    10W500-W5001000
    20X1000-X10002000
    40Y2000-Y20004000
    60Z3000-Z30006000


  10. HB Wash: Add 0.8 or 1.6 ml (Table 2) of HB and mix by vortexing or pipetting. Place the tube on a magnet, allow the beads to collect at the tube wall, then remove the supernatant.


  11. LB Wash: Add 0.8 or 1.6 ml (Table 2) of LB and mix by vortexing or pipetting. Place the tube on a magnet, allow the beads to collect at the tube wall. Remove the supernatant.


  12. Short SB Wash: Add 0.8 or 1.6 ml (Table 2) of SB and mix by vortexing or pipetting. Place the tube on a magnet, allow the beads to collect at the tube wall, then remove the supernatant. Repeat the wash once more.


  13. Long SB Wash: Add 0.8 or 1.6 ml (Table 2) of SB and mix by vortexing or pipetting. Incubate on a roller/rotator at RT for 15 minutes. Place the tube on a magnet, allow the beads to collect at the tube wall, then remove the supernatant.


  14. Resuspend beads in the same volume of SB as was the total coupling reaction volume and store at 4°C until use. The final bead concentration is 10 mg antibody coupled beads/ml. Your beads are now covalently coupled with antibody and ready for IP, Co-IP, a her assays.

If desired, antibody coupled beads may be concentrated up to 30 mg/ml by reducing the storage buffer volume. For long term storage, a final concentration of 0.02% NaN3 may be added to the antibody coupled beads. Warning: Not all coupled antibodies retain their function in long term storage. Verify your coupled antibody stability by testing in small scale.
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General Information

Precautions

These products are designed to be used with very strong permanent magnets. People wearing a pacemaker or any other medical magnetizable implant should not use this product unless advised by a health professional; the implant could be affected or damaged by exposure to a strong magnetic field.

Keep magnetizable tools and objects out of the working area. This includes, but is not restricted to, credit cards and other products containing magnetic recording devices. Keep away from delicate instruments, watches, electronic equipment, displays and monitors. Magnets may attract steel or other magnetic material with high mechanical forces. Take care during handling. Avoid contact between two magnets. Do not pull the magnets apart if contact has been made; twist off to prevent damage to the unit or fingers.

Disinfection of DynaMagTM Magnets

The following materials have been tested for cleaning purposes. Spray and/or wipe the DynaMag unit with one of the following cleaning agents.

  • 70% isopropyl alcohol
  • 1% sodium hypochlorite solution (Bleach)
  • 0.1N HCl solution

Other disinfectants have not been tested and may not be suitable. Do not submerge in aqueous solutions and avoid prolonged exposure to water or aqueous solutions. Clean with a damp cloth and mild detergent when exposed to harsh solvents. Do not autoclave the DynaMag magnets.

Storage and Stability

All kit components can be stored between 2°C and room temperature. Precautions should be taken to prevent bacterial contamination of the beads. When stored in unopened vials at 2°C – Room Temperature, the Dynabeads and buffers provided in this kit are stable until the expiration date printed on the label. Beads should not be autoclaved, but can be incubated with ethanol (70%, 1 hour) or gamma irradiated. Coated beads may be stored at 2-8°C for several weeks or even months, depending on the stability of the immobilized ligand. Coated beads should be washed once for 5 min in PBS/BSA before use. Use the magnet to collect the beads according to the washing procedure.

If a preservative is needed for storage of coated beads, a final concentration of 0.02% (w/v) sodium azide (NaN3) may be added to the storage buffer. Carefully remove before use by washing (see above). Required safety precautions must be followed when handeleing this cytotoxic material.
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143.11D      Rev000    2009