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Dominik Oberthuer

Explore the profile of Dominik Oberthuer including associated specialties, affiliations and a list of published articles. Areas
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Articles 33
Citations 1144
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Recent Articles
1.
Chapman H, Li C, Bajt S, Butola M, Dresselhaus J, Egorov D, et al.
Struct Dyn . 2025 Jan; 12(1):014301. PMID: 39816474
Sub-ångström spatial resolution of electron density coupled with sub-femtosecond to few-femtosecond temporal resolution is required to directly observe the dynamics of the electronic structure of a molecule after photoinitiation or...
2.
White T, Schoof T, Yakubov S, Tolstikova A, Middendorf P, Karnevskiy M, et al.
IUCrJ . 2024 Dec; 12(Pt 1):97-108. PMID: 39714221
We report the use of streaming data interfaces to perform fully online data processing for serial crystallography experiments, without storing intermediate data on disk. The system produces Bragg reflection intensity...
3.
Prester A, Perbandt M, Galchenkova M, Oberthuer D, Werner N, Henkel A, et al.
Commun Chem . 2024 Jul; 7(1):152. PMID: 38969718
The emergence and spread of antibiotic resistance represent a growing threat to public health. Of particular concern is the appearance of β-lactamases, which are capable to hydrolyze and inactivate the...
4.
Galchenkova M, Tolstikova A, Klopprogge B, Sprenger J, Oberthuer D, Brehm W, et al.
IUCrJ . 2024 Feb; 11(Pt 2):190-201. PMID: 38327201
Serial crystallography (SX) has become an established technique for protein structure determination, especially when dealing with small or radiation-sensitive crystals and investigating fast or irreversible protein dynamics. The advent of...
5.
Christou N, Apostolopoulou V, Melo D, Ruppert M, Fadini A, Henkel A, et al.
Science . 2023 Nov; 382(6674):1015-1020. PMID: 38033070
Photolyase is an enzyme that uses light to catalyze DNA repair. To capture the reaction intermediates involved in the enzyme's catalytic cycle, we conducted a time-resolved crystallography experiment. We found...
6.
Henkel A, Galchenkova M, Maracke J, Yefanov O, Klopprogge B, Hakanpaa J, et al.
IUCrJ . 2023 Mar; 10(Pt 3):253-260. PMID: 36892542
Macromolecular crystallography is a well established method in the field of structural biology and has led to the majority of known protein structures to date. After focusing on static structures,...
7.
Trost F, Ayyer K, Oberthuer D, Yefanov O, Bajt S, Caleman C, et al.
J Synchrotron Radiat . 2023 Jan; 30(Pt 1):11-23. PMID: 36601922
With the development of X-ray free-electron lasers (XFELs), producing pulses of femtosecond durations comparable with the coherence times of X-ray fluorescence, it has become possible to observe intensity-intensity correlations due...
8.
Sadri A, Hadian-Jazi M, Yefanov O, Galchenkova M, Kirkwood H, Mills G, et al.
J Appl Crystallogr . 2022 Dec; 55(Pt 6):1549-1561. PMID: 36570663
X-ray crystallography has witnessed a massive development over the past decade, driven by large increases in the intensity and brightness of X-ray sources and enabled by employing high-frame-rate X-ray detectors....
9.
Zielinski K, Prester A, Andaleeb H, Bui S, Yefanov O, Catapano L, et al.
IUCrJ . 2022 Nov; 9(Pt 6):778-791. PMID: 36381150
Serial crystallography at conventional synchrotron light sources (SSX) offers the possibility to routinely collect data at room temperature using micrometre-sized crystals of biological macromolecules. However, SSX data collection is not...
10.
Wells D, Berntsen P, Balaur E, Kewish C, Adams P, Aquila A, et al.
J Synchrotron Radiat . 2022 May; 29(Pt 3):602-614. PMID: 35510993
Serial crystallography of membrane proteins often employs high-viscosity injectors (HVIs) to deliver micrometre-sized crystals to the X-ray beam. Typically, the carrier medium is a lipidic cubic phase (LCP) media, which...