Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise

Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise

Determination of fast structural changes of biomolecules is usually performed on crystalline samples in a time-resolved pump-probe experiment. Changes in the structure are found by the difference Fourier method using phases of a known reference structure. As we showed recently, such changes can also...

Full description

Bibliographic Details
Main Authors: K. Pande, M. Schmidt, P. Schwander, D. K. Saldin
Format: Article
Language:English
Published: AIP Publishing LLC and ACA 2015-03-01
Series:Structural Dynamics
Online Access:http://dx.doi.org/10.1063/1.4916980
id doaj-21ffa69a2f994211ab6a46c1ce3636a4
record_format Article
spelling doaj-21ffa69a2f994211ab6a46c1ce3636a42020-11-25T01:01:09ZengAIP Publishing LLC and ACAStructural Dynamics2329-77782015-03-0122024103024103-1310.1063/1.4916980008502SDYSimulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noiseK. Pande0M. Schmidt1P. Schwander2D. K. Saldin3Department of Physics, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USADepartment of Physics, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USADepartment of Physics, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USADepartment of Physics, University of Wisconsin-Milwaukee, Milwaukee, Wisconsin 53211, USADetermination of fast structural changes of biomolecules is usually performed on crystalline samples in a time-resolved pump-probe experiment. Changes in the structure are found by the difference Fourier method using phases of a known reference structure. As we showed recently, such changes can also be determined from diffraction of uncrystallized molecules in random orientations. In this case, the difference in the angular correlations of the diffraction patterns is used to find structural changes. Similar to the difference Fourier method, there is no need for iterative phasing. We validated this approach previously with simulations in the absence of noise. In this paper, we show that the effects of noise can be adequately suppressed by averaging over a sufficiently large ensemble as they can be obtained using an X-ray free electron laser.http://dx.doi.org/10.1063/1.4916980
collection DOAJ
language English
format Article
sources DOAJ
author K. Pande
M. Schmidt
P. Schwander
D. K. Saldin
spellingShingle K. Pande
M. Schmidt
P. Schwander
D. K. Saldin
Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
Structural Dynamics
author_facet K. Pande
M. Schmidt
P. Schwander
D. K. Saldin
author_sort K. Pande
title Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
title_short Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
title_full Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
title_fullStr Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
title_full_unstemmed Simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
title_sort simulations on time-resolved structure determination of uncrystallized biomolecules in the presence of shot noise
publisher AIP Publishing LLC and ACA
series Structural Dynamics
issn 2329-7778
publishDate 2015-03-01
description Determination of fast structural changes of biomolecules is usually performed on crystalline samples in a time-resolved pump-probe experiment. Changes in the structure are found by the difference Fourier method using phases of a known reference structure. As we showed recently, such changes can also be determined from diffraction of uncrystallized molecules in random orientations. In this case, the difference in the angular correlations of the diffraction patterns is used to find structural changes. Similar to the difference Fourier method, there is no need for iterative phasing. We validated this approach previously with simulations in the absence of noise. In this paper, we show that the effects of noise can be adequately suppressed by averaging over a sufficiently large ensemble as they can be obtained using an X-ray free electron laser.
url http://dx.doi.org/10.1063/1.4916980
work_keys_str_mv AT kpande simulationsontimeresolvedstructuredeterminationofuncrystallizedbiomoleculesinthepresenceofshotnoise
AT mschmidt simulationsontimeresolvedstructuredeterminationofuncrystallizedbiomoleculesinthepresenceofshotnoise
AT pschwander simulationsontimeresolvedstructuredeterminationofuncrystallizedbiomoleculesinthepresenceofshotnoise
AT dksaldin simulationsontimeresolvedstructuredeterminationofuncrystallizedbiomoleculesinthepresenceofshotnoise
_version_ 1725210535527448576

Similar Items