Bio-Connect
Fluorescence polarization principle applied in FP assay kits.
Fluorescence polarization principle applied in FP assay kits.
Fluorescence polarization principle applied in FP assay kits.

PARP2 Olaparib Competitive Inhibitor Assay Kit

Research Use Only
82294
BPS Bioscience
Product group Assays
Sign in to order and to see your custom pricing.
Large volume orders?
Order with a bulk request

Overview

  • Supplier
    BPS Bioscience
  • Product Name
    PARP2 Olaparib Competitive Inhibitor Assay Kit
  • Delivery Days Customer
    7
  • Certification
    Research Use Only
  • Scientific Description
    The PARP2 Olaparib Competitive Inhibitor Assay Kit is a competitive FP (fluorescent polarization) assay designed to measure the formation of a complex between PARP2 (poly(ADP-ribose) polymerase 2) and a fluorescent probe that contains the PARP2 inhibitor Olaparib. When the probe is bound to PARP1, FP is high. In the presence of a test compound able to bind to the same site in PARP2 as Olaparib, the Olaparib-containing fluorescent probe is displaced from PARP1 and remains in solution, resulting in low FP. The PARP2 Olaparib Competitive Inhibitor Assay Kit comes in a convenient 96-well format, with purified PARP2 enzyme (amino acids 2-583), Olaparib-containing fluorescent-labeled probe, and assay buffer for 100 enzyme reactions. Note: This kit is not appropriate for inhibitors expected to bind to PARP2 at different sites from Olaparib. PARP2 binds to the Olaparib-containing fluorescent probe, forming a complex. This complex, when subjected to polarized excitation light, emits highly polarized light due to its restricted movement in solution. In the presence of a test compound (A), PARP2 may form a complex with either the test compound, if the compound has the same binding site on PARP2 as Olaparib, or with the Olaparib-containing fluorescent probe. If the test compound binds to PARP2, the Olaparib-containing fluorescent is freed and a decrease in FP is observed. The decrease in FP value is proportional to the competitive binding of the test compound to PARP2. This assay requires a fluorescent microplate reader capable of measuring fluorescence polarization (FP) to read the FP signal. For more information FP technology, visit our Tech Note: FP, assay principles and applications.
  • Storage Instruction
    See manual
  • UNSPSC
    41116133