Small Angle Scattering Part A: Methods for Structural Investigation

<p>1. SAXS foundations and metrics<br>Robert Rambo<br>2. Contrast variation sample preparation protocols, experimental procedures, and rudimentary analysis<br>Lois Pollack<br>3. Molecular deuteration for neutron scattering<br>Anthony Patrick Duff<br>4. Planning, Executing and Assessing the Feasibility of SANS Contrast Variation Experiments<br>Susan Krueger<br>5. Technical considerations for small-angle neutron scattering from biological macromolecules<br>Cy Jeffries and Andrew Whitten<br>6. Advanced sample environments and capabilities at our synchrotron X-ray beamline with example applications<br>Melissa Graewert and Dmitri Svergun<br>7. SEC-SAXS-MALS data acquisition and processing pipeline at SIBYLS<br>Daniel Rosenberg and Michal Hammel<br>8. SEC-SAXS: pros and cons, experimental set-up, examples and software developments<br>Patrice Vachette, Javier Perez and Aurelien Thureau<br>9. Radiation damage and sample economy for stopped-flow methods in the time regime of millisecond and above<br>Michael Weiss<br>10. Stopped-flow-time-resolved SAXS<br>Henning Tidow and Inokentijs Josts<br>11. Insights on Temp-jump, time-resolved SAXS<br>Philip Anfinrud<br>12. Time-resolved Small-Angle Neutron Scattering (TR-SANS) for structural biology of dynamic systems: history, recent developments, and practical guidelines<br>Frank Gabel<br>13. SAXS data collection for Protein Fibrillation<br>Bente Vestergaard and Annette Langkilde<br>14. Actin assembly<br>Kristina Djinovic Carugo<br>15. SAS induced disulfide bond damage<br>Edward Snell<br>16. High pressure SAXS<br>Richard Gillilan<br>17. Challenges and opportunities in soft X-ray scattering of biological molecules<br>Esther W. Gomez<br>18. Collection of scattering data from lipid membranes and nanodiscs<br>Lin Yang<br>19. SANS stealth methods for membrane proteins<br>Henning Tidow and Inokentijs Josts<br>20. Predicting solution scattering patterns with explicit-solvent molecular simulations<br>Jochen S. Hub<br>21. From dilute to concentrated solutions of intrinsically disordered proteins: Sample preparation and data collection<br>Marie Skepo<br>22. Extracting physically-relevant ensemble properties of disordered proteins and other polymers from SAXS data<br>Joshua A. Riback<br>23. Determining topological structures of RNA using SAXS<br>Yun Xing Wang<br>24. SAS data analyses of polydisperse systems with special emphasis on transient complexes<br>Pau Bernado and Aamin Sagar<br>25. FEL samples and data collection<br>Peter Zwart</p>