In just a few minutes, capillary electrophoresis can sort a complex molecular mixture from a biological sample. As the molecules migrate through the capillary tube at different speeds, they take their turn, as in a queue, and present themselves one by one in front of the detector. Multiplexing analysis has become increasingly popular and electrophoresis allows the parallel analysis of a family of molecules. The analysis remains flexible and relevant whatever the number and variety of species detected.
The power of this unique separation makes it possible to reveal changes that are invisible to the most widely used or fastest-growing technologies, such as nucleic sequencing or antibody-based assays. These include modifications of proteins by phosphorylation, carbamylation or glycation, the prototype of which is glycated hemoglobin. Such post-translational modifications are involved in many physiological and pathological processes: capillary electrophoresis is the best analytical approach for these modifications.
The science of understanding and measuring diseases, which is at the core of medical diagnostics, is rapidly evolving. The most noteworthy elements are:
In addition to pathophysiology, medical diagnostics requires the perfect alignment of several types of knowledge. This knowledge is at the heart of our research and development activity.
For 50 years, our R&D teams have developed unique experience in mastering the analytical power of electrophoresis and the sophistication of multi-capillary and multi-analysis instruments.
Sebia’s R&D priorities are: