Quantifying binding affinity between species with multiple binding sites can present a significant challenge to many biophysical characterization techniques. Composition-gradient multi-angle light scattering (CG-MALS) provides direct measurement of affinity and absolute stoichiometry for a wide variety of interactions, including multivalent interactions, without the need for surface immobilization or tagging.

A model fusion protein, Y, was engineered with two binding sites for its ligand, X. The interaction was quantified using two CG-MALS experiments. The first experiment quantified the interaction between X and Y at a highaffinity binding site and suggested the presence of a second low-affinity binding site. A simulation based on these results led to the design of a follow-up experiment to quantify the affinity at the weaker binding site and confirm that no additional higher order species were formed.

null
Download PDF
Calypso II CG-MALS

Calypso II CG-MALS

Label-free, immobilization-free characterization of protein-protein and other macromolecular interactions with composition-gradient multi-angle light scattering.

The Calypso® II, in conjunction with a DAWN® or miniDAWN® MALS detector, measures binding affinities and absolute, molecular stoichiometries of complex biomolecular interactions.

Read more
DAWN®

DAWN®

The world’s most advanced light scattering instrument for absolute characterization of proteins, conjugates, macromolecules, and nanoparticles.

The DAWN and its companion Optilab dRI detector are the established benchmarks for MALS analysis, cited in thousands of peer-reviewed publications. Multi-angle light scattering detection is indispensable for use with GPC and HPLC-SEC in order to obtain reliable molecular mass distributions and information on molecular conformation, branching ratio, fragments and aggregates.

Read more