Introduction to magnetic beads for protein purification

Using magnetic beads for protein purification has a number of advantages compared to non-magnetic affinity matrices. At the same time, there are a lot of different products available with different features and benefits. This short summary shall support you in finding the optimal product for your research.

 

For more detailed information on magnetic beads, see the most recent  blogs and helpful e-books published by Sepmag.

Fig. 1: PureCube MagBeads at 100x magnification.

 

 

Magnetic Core

MagBeads used in protein purification contain a magnetic core made of magnetite which is covered in different materials. MagBeads are typically either ferri (or ferro-) magnetic, or superparamagnetic.

Ferri/Ferromagnetic magnetic cores are typically large (>30 nm) and show a strong magnetic moment. They retain this magnetic moment even after removal of the magnetic field. This effect is called "magnetic remanence". The strong magnetic field leads to a fast separation of the beads in the magnetic field. At the same time, they sometimes show self-magnetism and may attach to metal surfaces.

Superparamagnetic magnetic cores are smaller (5-30 nm), and their magnetic moment is weaker. When the outer magnetic field is removed, the beads lose their magnetism. Separation of the beads in the magnetic field typically takes longer or is less efficient. At the same time, use with metal surfaces is facilitated.

 
 
Fig. 2: Alternating gradient magnetometer (AGM) measurement of PureCube MagBeads.
X-axis: applied magnetic field H; y axis: resulting magnetic moment of the dried MagBead particles M.  Remanence: Residual magnetism of the particles in absence of an external magnetic field.
Saturation: Maximal magnetic moment of the particles.
PureCube MagBeads are ferrimagnetic and have a strong saturation signal, but show a very low remanence in the absence of a magnetic field, preventing bead aggregation.
Data kindly provided by Dipl. Ing. Moritz Ebeler, Karlsruhe Institute of Technology, Germany

 

Surface Chemistry

The magnetic core can be covered in a range of different materials, providing different properties.

Agarose forms a three-dimensional hydrophilic mesh with neutral charge. Similar to non-magnetic agarose, it is very well suited to bind to proteins, e.g. via affinity ligands. The large interacting surface leads to high binding capacities.  The neutral surface reduces non-specific binding.

Polyvinyl beads have a carboxylate surface which can be rather rough (by addition of carboxylate brushes), or rather smooth. Both variants sometimes show unspecific binding to proteins.

Their surface area available for protein binding is smaller than that of agarose coated beads, therefore they are typically smaller in size (1-2 µm) to provide the same binding capacity.

Silica beads are most widely used for nucleic acid purification. They become negatively charged at pH >3, and often show unspecific binding in protein purification.

 

Size

MagBeads come in different sizes, which has an impact on handling and purification results.

Small beads (1-10 µm): provide high surface areas available for protein purification, but a smaller magnetic field, which can negatively influence separation, especially from viscous solutions.
Medium beads (20-40 µm) : provide efficient separation and large surface area. When combined with agarose surfaces, binding capacities can be in the same range as for small polyvinyl beads.
Large beads (70-120 µm): have advantages for special applications, e.g. when purification methods contain both magnetic separation and filtration. When combined with agarose surfaces, binding capacities are still high.

Fig.3: Size distribution of PureCube Magnetic Beads and Agaroses.
 

 

PureCube MagBead Properties

For our standard MagBeads, we chose the following properties to provide optimal results for most applications. However, we can provide a range of customized MagBeads if required.

Standard: Medium sized beads (20-40 µm) with a ferrimagnetic core, and agarose coating: For high protein binding, low unspecific binding, and efficient separation
Custom: Large or extra-large magnetic agarose beads (70-120 µm or up to 400 µm) for special applications are available, and also other commercially available magnetic supports can be modified with your affinity ligand of choice. Contact us to learn more.