Tb cryptate-labeled anti-mouse IgG antibody for capturing anti-mouse IgG-tagged proteins in protein/protein interaction assays.
For research use only. Not for use in diagnostic procedures.
Feature | Specification |
---|---|
Application | Protein-Protein Interaction |
Tb cryptate-labeled anti-mouse IgG antibody for capturing anti-mouse IgG-tagged proteins in protein/protein interaction assays.
For research use only. Not for use in diagnostic procedures.
IgGs from Rabbit anti-Mouse immunoserum were immunopurified and labeled with Tb. PAb Anti Mouse IgG-Tb cryptate may be used to detect the binding of unlabeled mouse specific antibody on a target molecule or on Ig fusion proteins.
HTRF can be used in both biochemical and cellular formats to study a wide variety of interactions: protein/protein, protein/peptide, protein/DNA, protein/RNA, protein/carbohydrate, protein/small molecule, receptor/ligand.
HTRF can detect a broad range of affinity constants ranging from picomolar to low millimolar.
Application |
Protein-Protein Interaction
|
---|---|
Brand |
HTRF
|
Detection Modality |
HTRF
|
Product Group |
Fluorescent Reagent
|
Shipping Conditions |
Shipped in Dry Ice
|
Target Class |
Biologics
|
Target Species |
Mouse
|
Technology |
TR-FRET
|
Therapeutic Area |
Cardiovascular
Infectious Diseases
Inflammation
Metabolism/Diabetes
NASH/Fibrosis
Neuroscience
Oncology & Inflammation
Rare Diseases
|
Unit Size |
1,000 Assay Points
|
In an HTRF interaction assay, one partner is labeled (directly or indirectly) with the donor, and the other with the acceptor (again, directly or indirectly). The intensity of the signal is proportional to the binding of the 2 partners. In the example shown here: PAb Anti Mouse IgG-Tb cryptate binds to the Mouse Fc fused tagged partner A while partner B* binds to a specific Ab labeled with an HTRF acceptor.
*partner B can also be biotinylated, tagged, Fc fused. In these cases, use the corresponding HTRF reagent (anti-Tag, anti-species, protA, Streptavidin) labeled with acceptor for the detection.
The example on the right describes the protocol using a 20 µL final assay volume for detecting an interaction between a Mouse Fc fused-tagged partner A and a non-tagged partner B*. Dispense the 2 partners (10 µL), incubate, add PAb Anti Mouse IgG-Tb cryptate (5 µL) and anti-partner B labeled with acceptor (5 µL), incubate and read.
*partner B can also be biotinylated, tagged, Fc fused or directly labeled. In these cases, use the corresponding HTRF reagent (anti-Tag, anti species, protA, Streptavidin) labeled with acceptor for the detection.
The average conjugate quantity per well reflects overall biological material content. Using the active moiety amount is generally preferred to the quantity of total conjugate. For Cryptate and d2 conjugates, the total conjugate amount equals that of the active moiety, since the molecular weight of the label is negligible. This is not the case for XL665 labeled entities for which the quantity of total conjugate will vary depending on the final molar ratio of the XL665 conjugate, however, the amount of active moiety, provided by Revvity, is constant and based on the number of tests ordered.
Cryptate conjugates must not be excessive in order to prevent reader saturation and an unacceptable level of background. In most cases, a cryptate concentration of 1 to 5nM is appropriate, and will generate 20,000 to 80,000 cps at 620 nm depending on the HTRF compatible reader used. The XL665 conjugate must match its assay counterpart as closely as possible in order for the maximum number of biomolecules to be tagged with the XL665 acceptor. Thus, to detect a tagged molecule at an assay concentration of 20nM, the concentration of anti-Tag-XL665 should be equimolar or higher.
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