The amine coupling chemistry and polymer layer of the GLH sensor chip is similar to the Proteon GLC and GLM chips, allowing exceptional ligand binding across a wide pH range
Bio-Rad Laboratories has announced a new GLH sensor chip for its Proteon XPR36 protein interaction array system.
The chip, which generates a high analyte signal through its high ligand activity and binding capacity, is expected to deliver an improved surface plasmon resonance (SPR) signal compared to other commercially available surfaces.
"Customers who require high sensitivity detection can benefit significantly from using the GLH sensor chip and our Proteon XPR36 protein interaction array system, especially for any small protein molecule or protein-protein research where the analyte response is low," said Renee LeMaire-Adkins, Bio-Rad marketing manager, protein interaction technology.
The Proteon GLH sensor chip, consisting of a highly extended mixed polymer layer for maximum binding capacity, is designed for general amine coupling.
The chip is optimised for protein-small molecule interactions as well as protein-protein interactions, where extremely high sensitivity is a primary concern.
Beta testing has been successfully conducted in several customer laboratories in the USA, Australia, Japan, and Europe.
The new Proteon GLH sensor chip can be ordered for immediate delivery.
