Hybridoma binding (6HIS antigen) kit
HTRF Hybridoma binding (6HIS antigen) kit
The hybridoma binding (GST antigen) kit is designed to screen mouse hybridoma supernatants against GST-tagged targets.
The hybridoma technology is still the most common technique used to generate antibodies for therapeutic applications. The generation and screening of hybridomas from an immunized animal involve a time-consuming process and sample only a fraction of the antibodies generated during the adaptive immune response. Therefore, screening hybridoma supernatants for their ability to efficiciently bind the target of interest has become crucial.
The mouse hybridoma supernatant binding to a GST-tagged antigen is measured using a sandwich immunoassay, involving an anti-GST antibody labeled with an HTRF donor and an anti-mouse antibody labeled with an acceptor dye. The binding of murine antibodies produced by the hybridoma clone to their GST-tagged target generates an HTRF Signal.
The HTRF hybridoma binding kit can be run in a 96- or 384-well low volume white plate (20 µL final). As described here, samples are dispensed directly into the assay plate. The GST antigen is then added, followed by the dispensing of the HTRF reagents: the Anti GST antibody labeled with europium cryptate and the anti mouse antibody labeled with d2. The protocol can be further miniaturized or upscaled by simply resizing each addition volume proportionally.
Binders of Beta catenin fused to the GST tag was detected using an anti GST europium cryptate antibody and an anti mouse d2 antibody.
The hybridoma binding kit protocol was performed using 5 nM GST tagged Beta catenin protein for 1H at room temperature.
The graph shows the signal obtained with a positive sample (red) and a negative sample (orange).
The Hybridoma (GST antigen) control was also used to validate the experiment.
Easy pharmacological characterization of PPI modulators. - Notes techniques
Deciphering low- and high affinity interactions - Notes d'application
Monitoring nuclear receptor binding with HTRF assays - Notes d'application
Challenge large complexes with HTRF assays - Notes d'application
Get the brochure about technology comparison. - Brochures
See how peer researchers challenge the viral life cycle with PPI assays - Notes d'application
Choosing the right microplate reader ensures you’ll get an optimal readout. Discover our high performance reader, or verify if your lab equipment is going to be compatible with this detection technology.Let's find your reader