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Microcrystallization in lipidic cubic phase and serial crystallography studies of cytochrome c oxidase

Doktorsavhandling
Författare Cecilia Safari
Datum för examination 2019-12-06
ISBN 978-91-7833-679-1
Förlag Göteborgs universitet
Publiceringsår 2019
Publicerad vid Institutionen för kemi och molekylärbiologi
Språk en
Länkar hdl.handle.net/2077/62148
Ämnesord Serial crystallography, Cytochrome c oxidase, Microcrystallization in lipidic cubic phase
Ämneskategorier Biokemi och molekylärbiologi

Sammanfattning

Life in all living organisms depend on chemical processes performed by proteins, which are molecular machineries encoded in the DNA. Cytochrome c oxidase (CcO) is a membrane protein essential for cellular respiration, a process in which chemical energy enters the electron transport chain in the form of electrons and is transformed to ATP via a proton gradient. In the active site of CcO a redox-reaction takes place, where oxygen that we breathe is reduced to two water molecules at the same time as protons are pumped over the membrane. This thesis focuses on structural investigations performed by serial crystallography (SX) of CcO in lipidic cubic phase (LCP). The advances of bright X-ray sources in the form of X-ray Free Electron Lasers with short pulse durations and 4:th generation synchrotrons have evolved the structural biology field in the sense that high-quality data can be collected at room temperature with minimal X-ray induced radiation damage. These advancements enable the capturing of structural intermediates of proteins in a time-resolved manner. Well-diffracting microcrystals are of essence in serial crystallography experiments, and the study of membrane proteins in lipidic cubic phase has proven to be favorable compared to detergent-based crystallization. This thesis focuses on developing procedures to produce microcrystals in LCP, and its use in studies of ba3-type CcO from Thermus thermophilus as well as reaction centre from Blastrochloris viridis. The room-temperature structure of ba3-type CcO is determined in both the resting oxidized state and the reduced CO-bound state. The resting state structure reveals the active site ligand as a single oxygen species, and in comparisons to previously published structures of CcO we show structural differences between ba3-type CcO and bovine aa3-type CcO upon CO-binding. The work presented in this thesis provides the groundwork for future time-resolved CO-photolysis experiments of ba3-type CcO by the pump-probe approach, which may reveal more about the structural mechanisms that explain proton pumping in CcO.

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