Search Thermo Fisher Scientific
Search Thermo Fisher Scientific
The LanthaScreen™ LRRK2 [pSer935] Cellular Assay Kit combines the flexibility of the BacMam gene delivery system with the robustness and power of our LanthaScreen™ TR-FRET technology. It allows researchers to interrogate phosphorylation at serine 935 on a wild type Leucine-Rich Repeat Kinase-2 (LRRK2) protein in a variety of cell backgrounds to identify LRRK2 kinase inhibitors.
This assay format provides a convenient tool for the expression of LRRK2-GFP fusion protein in the cell background of of your choice. The resulting cellular assay can be used to identify LRRK2 and mutant inhibitorss, aiding in Parkinson's disease research and other research areas.
This kit provides enough material to evaluate the technology in a 384-well plate; larger sizes of all reagents are available separately.
The kit includes:
A kit for interrogating a mutant LRRK2 protein (Cat. No. A14686) is also available.
Benefits of this assay include:
More Physiologically Relevant
The LanthaScreen™ Tb-Anti-LRRK2 [pSer935] Antibody allows the investigation of phosphorylation at serine 935 on LRRK2 protein kinase. When paired with LRRK2 BacMam reagents, you have the freedom to choose the cellular background for your assay, including primary cells. This enables screening for potential inhibitors of LRRK2 proteins in their natural complexes in a physiologically relevant cell type.
More Convenient
Assays are run in a fully homogenous, addition-only format without any of the washing, lysate transfer, or separation procedures required for traditional methods such as western blotting and ELISA, making this assay ideal for HTS applications. The LanthaScreen™ technology provides all of the advantages of TR-FRET ratiometric detection, including reduced data noise, less interference from fluorescent compounds, and high sensitivity, which results in the use of fewer cells than traditional Western or ELISA methods.
Disease Relevant
The LanthaScreen™ Tb-Anti-LRRK2 [pSer935] Antibody can be used by Parkinson's and other disease researchers to perform HTS, cell-based assays to generate inhibition curves (IC50) for their compound libraries. This will aid drug discovery efforts by reducing the time to results from 4 hrs to typically 1.5 hr. compared to alternative ELISAs.