Structural Heterogeneity in Single Particle Imaging Using X-ray Lasers
- One of the challenges facing single particle imaging with ultrafast X-ray pulses is the structural heterogeneity of the sample to be imaged. For the method to succeed with weakly scattering samples, the diffracted images from a large number of individual proteins need to be averaged. The more the individual proteins differ in structure, the lower the achievable resolution in the final reconstructed image. We use molecular dynamics to simulate two globular proteins in vacuum, fully desolvated as well as with two different solvation layers, at various temperatures. We calculate the diffraction patterns based on the simulations and evaluate the noise in the averaged patterns arising from the structural differences and the surrounding water. Our simulations show that the presence of a minimal water coverage with an average 3 Å thickness will stabilize the protein, reducing the noise associated with structural heterogeneity, whereas additional water will generate more background noise.
Author: | Thomas Mandl, Christofer Östlin, Ibrahim E. Dawod, Maxim N. Brodmerkel, Erik G. Marklund, Andrew V. Martin, Nicusor Timneanu, Carl Caleman |
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Parent Title (English): | The Journal of Physical Chemistry Letters |
Document Type: | Article |
Language: | English |
Completed Date: | 2020/08/06 |
Date of first Publication: | 2020/10/12 |
Responsibility for metadata: | Fachhochschule Technikum Wien |
Release Date: | 2020/10/12 |
GND Keyword: | Layers; Peptides and proteins; Physical and chemical processes; Physical and chemical properties; Protein structure |
Volume: | 2020 |
Issue: | Volume 11, Issue 15 |
First Page: | 6077 |
Last Page: | 6083 |
Publish on Website: | 1 |
Open Access: | 1 |
Reviewed: | 0 |
Link to Publication: | https://doi.org/10.1021/acs.jpclett.0c01144 |
Link to Publication: | https://zenodo.org/record/4087872#.X4axW8Izb3g |
Department: | Department Computer Science |
Research Focus: | Sonstiges |
Projects: | Import |
Studienjahr: | 2019/2020 |