Biomolecular solution X-ray scattering at n2STAR Beamline

Abstract

Small angle X-ray Scattering (SAXS) is a method for determining basic structural characteristics such as size, shape, and surface of particles. SAXS can generate low resolution models of biomolecules faster than any other conventional experimental structural biology tools. SAXS data is mostly collected in synchrotron facilities to obtain the best scattering data possible however home source SAXS devices can also generate valuable data when optimized properly. Here, we examined sample data collection and optimization at home source SAXS beamline in terms of concentration, purity, and the duration of data acquisition. We validated that high concentration, monodisperse and ultra pure protein samples obtained by size exclusion chromatography are necessary for generating viable SAXS data using home source beamline. Longer data collection time does not always generate higher resolutions but at least one hour is required for generating a feasible model from SAXS data. Furthermore, with small optimizations both during data collection and later data analysis SAXS can determine properties such as oligomerization, molecular mass, and overall shape of particles in solution under physiological conditions.