Abstract
Coupling of size-exclusion chromatography with biological solution small-angle X-ray scattering (SEC-SAXS) on dedicated synchrotron beamlines enables structural analysis of challenging samples such as labile proteins and low-affinity complexes. For this reason, the approach has gained increased popularity during the past decade. Transportation of perishable samples to synchrotrons might, however, compromise the experiments, and the limited availability of synchrotron beamtime renders iterative sample optimization tedious and lengthy. Here, the successful setup of laboratory-based SEC-SAXS is described in a proof-of-concept study. It is demonstrated that sufficient quality data can be obtained on a laboratory instrument with small sample consumption, comparable to typical synchrotron SEC-SAXS demands. UV/vis measurements directly on the SAXS exposure cell ensure accurate concentration determination, crucial for direct molecular weight determination from the scattering data. The absence of radiation damage implies that the sample can be fractionated and subjected to complementary analysis available at the home institution after SEC-SAXS. Laboratory-based SEC-SAXS opens the field for analysis of biological samples at the home institution, thus increasing productivity of biostructural research. It may further ensure that synchrotron beamtime is used primarily for the most suitable and optimized samples.
Highlights
Solution-based small-angle X-ray scattering (SAXS) has over recent decades gained popularity in structural biology, owing to its potential to investigate the structure, dynamics and interactions of biomolecules directly in solution (Petoukhov & Svergun, 2013; Bizien et al, 2016; Vestergaard, 2016)
Using an array of proteins covering a wide range of molecular weights, we demonstrate that laboratory-based Size-exclusion chromatography (SEC)-SAXS yields data of sufficient statistical quality within the time used to perform a standard SEC run, while consuming no more protein than is routinely used for synchrotron SEC-SAXS measurements
We demonstrate that it is possible to perform SEC-SAXS on a laboratory-based instrument, provided it is optimized for high X-ray flux and signal-to-noise ratio
Summary
Solution-based small-angle X-ray scattering (SAXS) has over recent decades gained popularity in structural biology, owing to its potential to investigate the structure, dynamics and interactions of biomolecules directly in solution (Petoukhov & Svergun, 2013; Bizien et al, 2016; Vestergaard, 2016) Such structural insights usually require monodisperse samples devoid of aggregates and impurities, as each individual component of a solution contributes to the total scattering pattern (Jacques & Trewhella, 2010; Rambo & Tainer, 2013; Jeffries et al, 2016; Rambo, 2017). While attenuating the beam resolves this issue, it leads to longer measurement times and, correspondingly, consumption of precious beamtime
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