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View additional product information for Dynabeads™ MyOne™ Epoxy, for OEM and industrial use only - FAQs (34002D, 34001D)
17 product FAQs found
我们提供甲苯磺酰基、环氧基、羧基和胺基活化的Dynabeads磁珠。请点击链接(https://tools.thermofisher.com/content/sfs/brochures/Surface_Activated_Dynabeads.PDF)查看不同磁珠的对比信息。
We offer tosyl, epoxy, carboxylic acid and amine activated Dynabeads magnetic beads. Please see the link (https://tools.thermofisher.com/content/sfs/brochures/Surface_Activated_Dynabeads.PDF) for a comparison of the beads.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
The density of Dynabeads magnetic beads is a challenging property to determine. The reason is that Dynabeads magnetic beads have a 17-37% magnetic iron oxide content in order to have a reasonable magnetic separation time, and the density of the iron oxide is about 4.9 g/cm3. Dynabeads magnetic beads are composite materials, being a mix of polymers and iron oxide, and there are very few polymers that have a density below 1.
The sedimentation rate depends on the bead diameter squared, so the sedimentation of a 1 µm bead is much slower than that of 2.8 µm. The effect of diameter on sedimentation rate is to some extent counteracted by the fact that smaller beads need to have a higher content of iron oxide for magnetic separation applications. Typically, our M-280 Dynabeads (diameter 2.8 µm) have a density of 1.4 g DS/cm3 (DS = dry substance), our M-270 Dynabeads (diameter 2.8 µm) and M-450 Dynabeads (diameter 4.5 µm) have a density of 1.6 g DS/cm3, and our MyOne Dynabeads (diameter 1 µm) have a density of 1.8 g DS/cm3.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Dynabeads Cell Isolation and Expansion Support Center and Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
A linker antibody provides proper orientation of the target-specific primary antibody. Optimal orientation of the primary antibody is more important for reacting with larger organelles than for small organelles or membrane fractions. Different linkers can be used, but we recommend using an Fc-binding antibody, such as a monoclonal or polyclonal anti-mouse IgG. The linker antibody must be affinity purified and not contain stabilizers such as sugars or proteins that may bind to the Dynabeads magnetic beads. The specific primary antibody, if polyclonal, must be affinity purified in order to provide a high density of the specific antibody on the Dynabeads magentic beads surface.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
This depends on the nature of the specific ligand to be immobilized and the desired downstream application.
-The most frequently used surface-activated Dynabeads magnetic beads for protein isolation are the Tosyl-activated Dynabeads magnetic beads M-280. These beads are hydrophobic, easy to handle and ideal for covalent binding of antibodies for immunoprecipitation. Other ligands could also be covalently bound to these beads, but they have to tolerate conditions like neutral to high pH and high temperatures (required for covalent bond formation).
-Dynabeads magnetic beads M-270 Epoxy are used when the ligand to be immobilized needs to be treated gently and will not tolerate harsh binding conditions like high temperature or pH. Proteins/peptides (other than antibodies) and enzymes are often coupled onto these beads.
-Dynabeads magnetic beads M-270 Amine is often used in combination with crosslinkers to create specific surface groups on the beads. Hetro-bifunctional crosslinkers with an amine-reactive NHS group at one end and another chemical group of your choice at the other end are most frequently used. For example, Dynabeads magnetic beads M-270 Amine can be reacted with a hetero-bifunctional crosslinker containing a NHS group at one end and maleimide at the other end to create Dynabeads magnetic beads with a maleimide surface. Since maleimide reacts specifically with sulfhydryl groups, these modified Dynabeads magnetic beads can be used for applications where binding of sulfhydryl groups are desired. Dynabeads magnetic beads M-270 Amine may also be used for direct ligand coupling via aldehyde or ketone groups by Schiff base (imine) formation and reductive amination. In addition carboxylic acid groups on a ligand can be activated with a carbodiimide like EDC, which results in a direct amide bond formation between the beads and the ligand. Alternatively, a crosslinker may be introduced to the ligand. After activation of the ligand with crosslinker, the free end on the crosslinker has to be amine reactive.
-Dynabeads magnetic beads M-270 Carboxylic Acid and Dynabeads magnetic beads MyOne Carboxylic Acid can also be used for immobilizing proteins. The carboxylic acid groups on these beads need to be activated with a carbodiimide before coupling. The negatively-charged surface of these beads may attract positively charged proteins and cause nonspecific binding. This needs to be considered if these beads are going to be used for immunoprecipitation.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
Dynabeads M-280 Tosyl activated magnetic beads allow direct covalent binding to primary amino or sulfhydryl groups in proteins and peptides at high pH and high temperature.
-Dynabeads M-270 Epoxy magnetic beads allow direct covalent binding to primary amino and sulfhydryl groups in proteins and peptides at neutral pH and across a wide temperature range.
-Dynabeads M-270 Amine magnetic beads allow direct covalent binding through reductive amination of aldehydes, or the use of bifunctional amine-reactive crosslinkers.
-Dynabeads M-270 and MyOne Carboxylic Acid magnetic beads allow covalent amide formation with primary amino groups in proteins and peptides.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
The M stands for magnetic. M-280 refers to hydrophobic 2.8 micron beads, while M-270 refers to hydrophilic 2.8 micron beads. MyOne refers to 1 micron beads.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Answering this question is not straightforward. It will depend on the detection method. When using HRP (horseradish peroxidase)-based detection system or radioactivity in combination with a good antibody, very little target is required. More target is required when using an AP (alkaline phosphatase)-based detection system. When a sensitive detection system is used, detection will most likely be in the nanogram range. In some cases, pictograms of target can be detected.
Find additional tips, troubleshooting help, and resources within our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Within practical limits, the elution volume can be scaled up or down to suit your experiment. However, volumes less than 10 µL become more difficult to work with. In addition, the amount of target is important. If you have a lot of beads with a lot of bound target in a small elution volume, your elution may not be very efficient. Typically, 15-100 µL of beads may be eluted in 30 µL. For efficient recovery of the antigen and/or binding partners, the elution volume should at minimum equal the volume of the beads.
Find additional tips, troubleshooting help, and resources within our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
There are several methods to quantify the amount of antibody bound to the beads. The crudest method is to measure the concentration of antibody in the coupling reaction before and after antibody attachment. Either fluorescence measurements or absorbance at 280 nm can be used. Alternatively, you could measure the amount of antibody bound to the beads by fluorescence, chemiluminescence, or radiolabeling detection methods.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Incubation time will depend on the immunogenicity of the primary antibody and its binding affinity with the specific antigens. For a good primary antibody, 30-40 minutes incubation should work well. If you are working with a poor antibody or a very low-abundance protein, you could try to increase binding by incubating overnight. However, this also increases the chance of background protein binding.
Find additional tips, troubleshooting help, and resources within our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
If the target protein has the same molecular weight as the heavy or light chain antibody, we would recommend covalently binding the antibody to the bead surface. This can be done by either crosslinking the antibody to the Dynabeads Protein A or G magnetic beads, or secondary coated beads, or by using one of the surface-activated Dynabeads magnetic beads.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Using Dynabeads magnetic beads for protein isolation provides several advantages:
-Rapid binding kinetics: since the number of beads per volume for Dynabeads is approximately 1,000 times higher than for the same volume of a Sepharose slurry, the probability for Dynabeads magnetic beads to hit the target is far greater.
-Incubation time: due to the rapid binding kinetics, the protocol is usually very short.
-Low background: due to the rapid binding kinetics and the short incubation time, the background is also very low.
-Trapping of impurities: the beads offer no internal volume for binding or trapping of impurities.
-Low antibody consumption: this is because Dynabeads magnetic beads are nonporous, uniform superparamagnetic, monodispersed, highly crosslinked polystyrene microspheres consisting of an even dispersion of magnetic material throughout the bead. The beads are coated with a thin layer of a highly crosslinked polystyrene shell that encases the magnetic material and prevents any leakage from the beads or trapping of ligands in the bead interior. The outer layer also provides a defined surface area for the adsorption or coupling of various molecules such as antibodies. Uniformity of bead size and shape provide consistent physical and chemical properties. These uniform physical characteristics lead to high-quality, reproducible results.
-Reproducibility: due to easier practical handling, such as pipetting. No centrifugation steps or preclearing are required.
Find additional tips, troubleshooting help, and resources within ourProtein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
No. Not only is dithionite a reducing agent, but the strong affinity of the dithionite ion for bivalent and trivalent metal cations (M2+, M3+) allows it to enhance the solubility of iron, making it a chelating agent. As a result, the iron in the Dynabeads magnetic beads is reduced and pulled out when they are exposed to dithionite. The same is observed if Dynabeads magnetic beads are exposed to DTT and EDTA. With EDTA, we highly recommend checking the minimal amount of EDTA that your specific molecules would tolerate for binding to the Dynabeads, and if it will affect your specific application. For some applications, low concentrations of EDTA can be tolerated by Dynabeads. On the other hand, using 10 mM EDTA with heating affects the binding of biotin molecules to Dynabeads streptavidin.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Yes, they are compatible with 6-8 M Urea when used during post-coupling steps.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
Dynabeads magnetic beads, being magnetic in nature are really not designed to be centrifuged. That being said, the beads themselves are compact, as the pores in the polymer matrix are filled with magnetic material and coated with a final outer polymer shell that will further add to the rigidity of the beads. Hence, pressure should theoretically not be a problem for the beads themselves, but the force exerted by the beads on surrounding cells in the pellet may be detrimental to the cells.
Find additional tips, troubleshooting help, and resources within our Dynabeads Nucleic Acid Purification Support Center as well as our Protein Immunoprecipitation (IP), Co-Immunoprecipitation (Co-IP), and Pulldown Support Center.
Magnetic beads, unlike agarose beads, are solid and spherical, and antibody binding is limited to the surface of each bead. While magnetic beads do not have the advantage of a porous center to increase the binding capacity, they are significantly smaller than agarose beads (1 to 4 µm), which collectively gives them adequate surface area-to-volume ratios for optimum antibody binding.
High-power magnets are used to localize magnetic beads to the side of the incubation tube and out of the way to enable cell lysate aspiration without the risk of also aspirating immune complexes bound to the beads. Magnetic separation avoids centrifugation, which can break weak antibody-antigen binding and cause loss of target protein.
However, an issue with the use of magnetic beads is that bead size variations may prevent all beads from localizing to the magnet. Additionally, while immunoprecipitation using agarose beads only requires standard laboratory equipment, the use of magnetic beads for immunoprecipitation applications requires high-power magnetic equipment that can be cost-prohibitive. Read more about our Magnetic Immunoprecipitation Products (https://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-assays-analysis/immunoprecipitation.html#products).
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.