Scientific Library
Ready-to-Use ELISAs to study Transcription Factors DNA binding
Gene expression is regulated by different mechanisms. One of them is the binding of
3D Cell culture: Innovative cell culture devices for more predictive 3D models
One of the biggest challenges as a researcher in life sciences, is to obtain proof of concept the more predictive as possible. To help you to reach your objectives, many innovative tools are being developed
3D cell culture Biochip - versatile for more physiological applications
By mimicking in-vivo environments, 3D cell culture models appear nowadays as the best in-vitro study model to work in an in-vivo like study model and to obtain
Cell-Based ELISA for in-cell protein phosphorylation and expression profile detection
Cell-Based ELISA tests now enable precise measurement of the phosphorylation status or expression profiles of target proteins (biomarkers) in whole cells. In this post, a review of high performing cell-based assays is made.
Interestingly, the experimental design is simple and is based on 3 steps:
- Plate
- Treat and fix your cells of interest (adherent or in suspension)
- Detect the target proteins with the optimized reagents provided in the kit (450 nm colorimetric detection)
These Colorimetric Cell-Based ELISA Kits enable the detection of various target proteins (biomarkers). Some references also enable the precise measurement of the phosphorylation status of proteins of interest. They can easily
AIM Biochips - 3D cell culture platform for Immunotherapy and T Cell therapy studies
As mentioned in a previous post the DAX Biochips from AIM Biotech are an innovative and versatile microfluidic platform, allowing researchers to more easily develop 3D cell culture