cGMP radioimmunoassay kit using Scintillation Proximity Assay (SPA) beads
For research use only. Not for use in diagnostic procedures.
cGMP radioimmunoassay kit using Scintillation Proximity Assay (SPA) beads
For research use only. Not for use in diagnostic procedures.
Scintillation proximity assay (SPA) to measure cGMP-dependent PDE isoenzymes:
The assay concept from is based on the observation that linear nucleotides bind preferentially to SPA yttrium silicate beads compared to cyclic nucleotides in the presence of zinc sulphate. Therefore, under optimized conditions, the product of the enzyme reaction binds directly to the SPA beads, and the enzyme substrate will not. The binding of the radiolabelled product to the bead brings the isotope into close enough proximity to allow radiation from the tritium to excite the scintillant within the bead. Any unbound radiolabel is not close enough to the scintillant to allow this energy transfer, so no signal is generated. In addition, as the cyclic substrate does not bind effectively to the bead, the background signal generated is very low. A complex ion chelation mechanism enables the linear nucleotide to bind to the bead. Optimal concentrations of zinc sulphate enhance the binding and ensure robust and efficient capture. The addition of zinc sulphate in SPA bead suspension also has the inherent ability to terminate PDE reactions.
Application |
Drug Discovery & Development
|
---|---|
Automation Compatible |
No
|
Bead Type or Material |
Yttrium Silicate (YSi)
|
Brand |
SPA Enzymatic Assays
|
Detection Modality |
Radiometric
|
Format |
Microplates
Tubes
|
Instrument Compatibility |
Microbeta2
|
Radioisotope |
3H
|
Shipping Conditions |
Shipped in Dry Ice
|
Special Ordering Information |
This is a radioactive product - shipping address must have a license to receive radioactive materials.
|
Technology |
Scintillation Proximity Assay
|
Unit Size |
1 kit
|
Are you looking for resources, click on the resource type to explore further.
Scintillation proximity assay has been successfully applied to receptor binding assays
Combine the sensitivity of radioactive assays with the convenience of a homogeneous (no wash steps) assay for clearer research...
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