A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography

Serial femtosecond crystallography was initially developed for room-temperature X-ray diffraction studies of macromolecules at X-ray free electron lasers. When combined with tools that initiate biological reactions within microcrystals, time-resolved serial crystallography allows the study of struct...

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Autores principales: Ghosh, Swagatha, Zorić, Doris, Dahl, Peter, Bjelčić, Monika, Johannesson, Jonatan, Sandelin, Emil, Borjesson, Per, Björling, Alexander, Banacore, Analia, Edlund, Petra, Aurelius, Oskar, Milas, Mirko, Nan, Jie, Shilova, Anastasya, Gonzalez, Ana, Mueller, Uwe, Brändén, Gisela, Neutze, Richard
Formato: Online Artículo Texto
Lenguaje:English
Publicado: International Union of Crystallography 2023
Materias:
Research Papers
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10077854/
https://www.ncbi.nlm.nih.gov/pubmed/37032973
http://dx.doi.org/10.1107/S1600576723001036
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author Ghosh, Swagatha
Zorić, Doris
Dahl, Peter
Bjelčić, Monika
Johannesson, Jonatan
Sandelin, Emil
Borjesson, Per
Björling, Alexander
Banacore, Analia
Edlund, Petra
Aurelius, Oskar
Milas, Mirko
Nan, Jie
Shilova, Anastasya
Gonzalez, Ana
Mueller, Uwe
Brändén, Gisela
Neutze, Richard
author_facet Ghosh, Swagatha
Zorić, Doris
Dahl, Peter
Bjelčić, Monika
Johannesson, Jonatan
Sandelin, Emil
Borjesson, Per
Björling, Alexander
Banacore, Analia
Edlund, Petra
Aurelius, Oskar
Milas, Mirko
Nan, Jie
Shilova, Anastasya
Gonzalez, Ana
Mueller, Uwe
Brändén, Gisela
Neutze, Richard
author_sort Ghosh, Swagatha
collection PubMed
description Serial femtosecond crystallography was initially developed for room-temperature X-ray diffraction studies of macromolecules at X-ray free electron lasers. When combined with tools that initiate biological reactions within microcrystals, time-resolved serial crystallography allows the study of structural changes that occur during an enzyme catalytic reaction. Serial synchrotron X-ray crystallography (SSX), which extends serial crystallography methods to synchrotron radiation sources, is expanding the scientific community using serial diffraction methods. This report presents a simple flow cell that can be used to deliver microcrystals across an X-ray beam during SSX studies. This device consists of an X-ray transparent glass capillary mounted on a goniometer-compatible 3D-printed support and is connected to a syringe pump via light­weight tubing. This flow cell is easily mounted and aligned, and it is disposable so can be rapidly replaced when blocked. This system was demonstrated by collecting SSX data at MAX IV Laboratory from microcrystals of the integral membrane protein cytochrome c oxidase from Thermus thermophilus, from which an X-ray structure was determined to 2.12 Å resolution. This simple SSX platform may help to lower entry barriers for non-expert users of SSX.
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spelling pubmed-100778542023-04-07 A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography Ghosh, Swagatha Zorić, Doris Dahl, Peter Bjelčić, Monika Johannesson, Jonatan Sandelin, Emil Borjesson, Per Björling, Alexander Banacore, Analia Edlund, Petra Aurelius, Oskar Milas, Mirko Nan, Jie Shilova, Anastasya Gonzalez, Ana Mueller, Uwe Brändén, Gisela Neutze, Richard J Appl Crystallogr Research Papers Serial femtosecond crystallography was initially developed for room-temperature X-ray diffraction studies of macromolecules at X-ray free electron lasers. When combined with tools that initiate biological reactions within microcrystals, time-resolved serial crystallography allows the study of structural changes that occur during an enzyme catalytic reaction. Serial synchrotron X-ray crystallography (SSX), which extends serial crystallography methods to synchrotron radiation sources, is expanding the scientific community using serial diffraction methods. This report presents a simple flow cell that can be used to deliver microcrystals across an X-ray beam during SSX studies. This device consists of an X-ray transparent glass capillary mounted on a goniometer-compatible 3D-printed support and is connected to a syringe pump via light­weight tubing. This flow cell is easily mounted and aligned, and it is disposable so can be rapidly replaced when blocked. This system was demonstrated by collecting SSX data at MAX IV Laboratory from microcrystals of the integral membrane protein cytochrome c oxidase from Thermus thermophilus, from which an X-ray structure was determined to 2.12 Å resolution. This simple SSX platform may help to lower entry barriers for non-expert users of SSX. International Union of Crystallography 2023-03-09 /pmc/articles/PMC10077854/ /pubmed/37032973 http://dx.doi.org/10.1107/S1600576723001036 Text en © Swagatha Ghosh et al. 2023 https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution (CC-BY) Licence, which permits unrestricted use, distribution, and reproduction in any medium, provided the original authors and source are cited.
spellingShingle Research Papers
Ghosh, Swagatha
Zorić, Doris
Dahl, Peter
Bjelčić, Monika
Johannesson, Jonatan
Sandelin, Emil
Borjesson, Per
Björling, Alexander
Banacore, Analia
Edlund, Petra
Aurelius, Oskar
Milas, Mirko
Nan, Jie
Shilova, Anastasya
Gonzalez, Ana
Mueller, Uwe
Brändén, Gisela
Neutze, Richard
A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title_full A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title_fullStr A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title_full_unstemmed A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title_short A simple goniometer-compatible flow cell for serial synchrotron X-ray crystallography
title_sort simple goniometer-compatible flow cell for serial synchrotron x-ray crystallography
topic Research Papers
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10077854/
https://www.ncbi.nlm.nih.gov/pubmed/37032973
http://dx.doi.org/10.1107/S1600576723001036
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