PDE2A Assay Kit

Catalog #
60320
$405 *
Size: 96 reactions
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Description

The PDE2A Assay Kit is designed for identification of PDE2A1 inhibitors using fluorescence polarization. The assay is based on the binding of a fluorescent nucleotide monophosphate generated by PDE2A1 to the binding agent. The key to the PDE2A Assay Kit is the specific binding agent. Using this kit, only two simple steps on a microtiter plate are required for PDE2A1 reactions. First, the fluorescently labeled cAMP is incubated with a sample containing PDE2A1 for 1 hour. Second, binding agent is added to the reaction mix to produce a change in fluorescent polarization that can then be measured using a fluorescence readerequipped for the measurement of fluorescence polarization.

Synonyms
inhibitor screening, assay kit, PDE2A, PDE2-A, PDE
Product Info
Storage and Usage
Citations
Assay Kit Format
Fluorescence Polarization
Supplied As
The PDE2A inhibitor screening assay kit comes in a convenient 96-well format, with purified PDE2A1 enzyme, fluorescently labeled PDE2A1 substrate (cAMP), binding agent, and PDE assay buffer for 100 enzyme reactions.
Format

Assay Kit Components

UniProt #
O00408
Background
Phosphodiesterases (PDEs) play an important role in dynamic regulation of cAMP and cGMP signaling. PDE2A, also known as cGMP-stimulated phosphodiesterase, hydrolyzes cyclic nucleotides cAMP (Km = 2.4 µM) and cGMP, and is involved in the regulation of blood pressure and fluid homeostasis. Phosphodiesterases catalyze the hydrolysis of the phosphodiester bond in dye-labeled cyclic monophosphates. Beads selectively bind the phosphate group in the nucleotide product. This increases the size of the nucleotide relative to unreacted cyclic monophosphate. In the polarization assay, dye molecules with absorption transition vectors parallel to the linearly-polarized excitation light are selectively excited. Dyes attached to the rapidly-rotating cyclic monophosphates will obtain random orientations and emit light with low polarization. Dyes attached to the slowly-rotating nucleotide-bead complexes will not have time to reorient and therefore will emit highly polarized light.
References
Maurice DH. Front. Biosci. 2005; 10:1221-8.