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The Development of Computational Methods for Fluctuation Xray Scattering

$346,180R01FY2014GMNIH

University Of Calif-Lawrenc Berkeley Lab, Berkeley CA

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Abstract

DESCRIPTION (provided by applicant): X-ray Solution scattering is a routine biophysical technique used to determine structure and dynamics of macromolecules in solution. When solution scattering data is interpreted, often with the aid of known atomic models, an improved understanding of the macromolecule's biological function and properties emerges. The main challenge associated with solution scattering data is the intrinsic lack of information that can be obtained from solution scattering curves. By performing the solution scattering experiment at the femtosecond time scale by using a free-electron laser, the information content of the data can be significantly enhanced, leading to fewer ambiguities in derived structural models and a better understanding of the associated biology. This technique is called fluctuation scattering. The current understanding of fluctuation scattering theory, optimal data analyses and model reconstructing practices is limited, while the availability of user facilities on which these experiments can be performed is growing rapidly. Further development in data reduction, model generation and basic theory will lead to a mature biophysical technique providing the structural biology community with information-dense solution scattering data. The proposed development of theory, data reduction and analyses methods will ultimately result in a better understanding of biological systems at the atomic level.

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