SEC-MALS quantifies biophysical attributes of mRNA, including molar mass, percent aggregates, Rg and Rh, and how they are affected by formulation and storage conditions.
The white paper discusses a validated FFF-MALS method in line with technical specification ISO/TS 21362 for the analysis of lipid-based nanoparticles (LNPs).
SEC-MALS and CG-MALS characterize viral glycoprotein (vGP) self-association and the absolute stoichiometry and affinity of vGP antibody interactions.
Light scattering facilitates vaccine development by enabaling the analysis of size, shape, molar mass, and other parameters derived from these properties.
Wyatt’s instruments and techniques constitute platform methods for effective product and process development, as well as quality control, of AAVs for gene therapy.
This white paper presents the characterization of protein-DNA complexes using two complementary multi-angle light scattering techniques, SEC-MALS and CG-MALS.
Multi-angle light scattering, a powerful technology for biophysical characterization of biologics and LNPs, can also serve as an effective PAT tool to monitor product attributes during DSP.
SEC-MALS quantifies biophysical attributes of mRNA, including molar mass, percent aggregates, Rg and Rh, and how they are affected by formulation and storage conditions.
This note demonstrates the use of DLS and online multi-angle light scattering with field-flow fractionation (FFF-MALS) for characterizing retrovial viral vectors.
Field-flow fractionation with multi-angle and dynamic light scattering (FFF-MALS-DLS) combines size-based separation with absolute size and structure determination.