Protein Biophysics (Prof. Daniel Otzen)

Daniel Otzen

Professor Interdisciplinary Nanoscience Center - INANO-MBG, iNANO-huset

M dao@inano.au.dk
H 1592, 224
P +4587156741
P +4520725238

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Research focus in brief

Our research activities fall within 3 main areas, which all relate to the study of the kinetics and thermodynamics of protein conformational changes, namely membrane protein folding, protein-detergent interactions and protein fibrillation. These areas are linked by a keen interest in understanding the mechanistic and thermodynamic behaviour of proteins in different circumstances by quantifying the strength of internal side-chain interactions as well as contacts with solvent molecules, whether it be detergents, denaturants, stabilizing salts and osmolytes or lipids. Ultimately we hope this will lead to a greater manipulative ability vis-a-vis processes of both basic, pharmaceutical and industrial relevance. The general approach is to use available spectroscopic techniques (fluorescence, CD, stopped-flow, FTIR, NMR and dynamic and static light scattering) to generate data which can be analyzed in a quantitative manner to develop models and mechanisms for conformational changes at the molecular level.

News

iNANO researchers receive DKK 35.5 million from the Independent Research Fund Denmark for research projects on green transition. (Image: Colourbox)

2020.10.29 | iNano

iNANO researchers receive DKK 35.5 million for green transition

7 researchers at Faculty of Natural Sciences, Aarhus University, have just received DKK 38 million in total from the Independent Research Fund Denmark for research projects on green transition. 6 of these grants have been awarded to iNANO associated researchers, which amounts to DKK 35.5 million.

Poul Nissen (right) and his colleagues will establish an Infrastructure for Cryo-Electron Tomography (ICE-T) which will be embedded in the Danish National Cryo-EM Facility – EMBION – where cryo-CLEM and high-end cryo-TEMs are available. From the left: Thomas Boesen and Gregers Rom Andersen. Photo: Lisbeth Heilesen

2020.10.09 | iNano

The cryoEM facility EMBION receives DKK 13,3 million from the Novo Nordisk Foundation for large equipment

With the grant from the Novo Nordisk Foundation, main applicant Poul Nissen and colleagues from the Department of Molecular Biology and Genetics and iNANO as well as partners at the Department of Biomedicine and the Department of Engineering will be able to establish an infrastructure for Cryo-Electron Tomography (ICE-T), which will also be made…

Professor Liv Hornekær has been elected as member of The Royal Danish Academy of Sciences and Letters. (Photo: Lars Kruse, AU Photo)

2020.10.08 | iNano

Liv Hornekær elected as member of The Royal Danish Academy of Sciences and Letters

Congratulations to Professor Liv Hornekær and all the other 15 outstanding scientists who have been elected as new members of The Royal Danish Academy of Sciences and Letters. They will enter into a year-long tradition, and follow in the footsteps of famous former members such as Niels Bohr and H.C. Ørsted, Marie Curie, Albert Einstein and Charles…

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Recent publications

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Pedersen, J. N., Lyngsø, J., Zinn, T., Otzen, D. & Pedersen, J. S. (2020). A complete picture of protein unfolding and refolding in surfactants. Chemical Science, 11(3), 699-712. https://doi.org/10.1039/C9SC04831F

Javed, I., Zhang, Z., Adamcik, J., Andrikopoulos, N., Li, Y., Otzen, D. E., Lin, S., Mezzenga, R., Davis, T. P., Ding, F. & Ke, P. C. (2020). Accelerated Amyloid Beta Pathogenesis by Bacterial Amyloid FapC. Advanced Science, 7(18), [2001299]. https://doi.org/10.1002/advs.202001299

Hajipour, M. J., Mohammad-Beigi, H., Nabipour, I., Mahmoudi, N., Azhdarzadeh, M., Derakhshankhah, H., El Dawud, D., Mohammadinejad, R. & Otzen, D. (2020). Amyloid fibril inhibition, acceleration, or fragmentation: Are nano-based approaches advance in the right direction? Nano Today, 35(December), [100983]. https://doi.org/10.1016/j.nantod.2020.100983

Sawada, M., Yamaguchi, K., Hirano, M., Noji, M., So, M., Otzen, D. E., Kawata, Y. & Goto, Y. (2020). Amyloid formation of α-synuclein based on the solubility- and supersaturation-dependent mechanism. Langmuir, 36(17), 4671-4681. https://doi.org/10.1021/acs.langmuir.0c00426

Nielsen, N. S., Poulsen, E. T., Lukassen, M. V., Chao Shern, C., Mogensen, E. H., Weberskov, C. E., DeDionisio, L., Schauser, L., Moore, T. C. B., Otzen, D. E., Hjortdal, J. & Enghild, J. J. (2020). Biochemical mechanisms of aggregation in TGFBI-linked corneal dystrophies. Progress in Retinal and Eye Research, 77, [100843]. https://doi.org/10.1016/j.preteyeres.2020.100843

Adão, R., Cruz, P. F., Vaz, D. C., Fonseca, F., Pedersen, J. N., Ferreira-da-Silva, F., Brito, R. M. M., Ramos, C. H. I., Otzen, D., Keller, S. & Bastos, M. (2020). DIBMA nanodiscs keep α-synuclein folded. Biochimica et Biophysica Acta - Biomembranes, 1862(9), [183314]. https://doi.org/10.1016/j.bbamem.2020.183314

Ke, P. C., Zhou, R., Serpell, L. C., Riek, R., Knowles, T. P. J., Lashuel, H. A., Gazit, E., Hamley, I. W., Davis, T. P., Fändrich, M., Otzen, D. E., Chapman, M. R., Dobson, C. M., Eisenberg, D. S. & Mezzenga, R. (2020). Half a century of amyloids: past, present and future. Chemical Society Reviews, 49(15), 5473-5509. https://doi.org/10.1039/c9cs00199a

Eskandari, H., Ghanadian, M., Noleto-Dias, C., Lomax, C., Tawfike, A., Christiansen, G., Sutherland, D. S., Ward, J. L., Mohammad-Beigi, H. & Otzen, D. E. (2020). Inhibitors of α-Synuclein fibrillation and oligomer toxicity in Rosa damascena: the all-pervading powers of flavonoids and phenolic glycosides. ACS Chemical Neuroscience, 11(19), 3161–3173. https://doi.org/10.1021/acschemneuro.0c00528

Jensen, G. V., Pedersen, J. N., Otzen, D. E. & Pedersen, J. S. (2020). Multi-Step Unfolding and Rearrangement of α-Lactalbumin by SDS Revealed by Stopped-Flow SAXS. Frontiers in Molecular Biosciences, 7, [125]. https://doi.org/10.3389/fmolb.2020.00125

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Revised 30.10.2020