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Interdisciplinary Nanoscience Center

Protein Biophysics (Prof. Daniel Otzen)

Daniel Otzen

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

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

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Research funding

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

On November 16, 2022, industry and academia came together to discuss challenges in connection with battery materials and their recycling at the 8th Brainnovation Day at Aarhus University

18 November 2022

The need for energy storage is increasing, but with the present technology, there are not enough resources to produce the necessary batteries. On November 16, 2022, industry and academia came together to discuss challenges in connection with battery materials and their recycling at the 8th Brainnovation Day at Aarhus University.

Professor Anja-Verena Mudring from the Department of Chemistry receives DKK 2.9 million to research into greener cooling technology.

09 November 2022

Independent Research Fund Denmark has granted DKK 2.9 million to Anja-Verena Mudring (Department of Chemistry & iNANO) for research into how to prevent cooling systems from exacerbating global warming.

MedicQuant, headed by former PhD students and post docs at iNANO, Line Debois Frejlev Nielsen and Malthe Hansen-Bruhn, receive DKK 197,000 from the entrepreneurial grant AU Launch. Photo: The Kitchen, AU

04 November 2022

MedicQuant, a spin-out company from iNANO and Department of Chemistry, has been granted one of the newly awarded AU Launch grants. MedicQuant is headed by former PhD students and post docs at iNANO, Line Debois Frejlev Nielsen and Malthe Hansen-Bruhn, and they receive DKK 197,000 from the entrepreneurial grant AU Launch for business development.

Recent publications

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Mohammad-Beigi, H., Zanganeh, M., Scavenius, C., Eskandari, H., Farzadfard, A., Shojaosadati, S. A., Enghild, J. J., Otzen, D. E., Buell, A. K. & Sutherland, D. S. (2022). A Protein Corona Modulates Interactions of α-Synuclein with Nanoparticles and Alters the Rates of the Microscopic Steps of Amyloid Formation. ACS Nano, 16(1), 1102-1118. https://doi.org/10.1021/acsnano.1c08825

Christensen, N. R., Pedersen, C. P., Sereikaite, V., Pedersen, J. N., Vistrup-Parry, M., Sørensen, A. T., Otzen, D., Teilum, K., Madsen, K. L. & Strømgaard, K. (2022). Bidirectional protein-protein interactions control liquid-liquid phase separation of PSD-95 and its interaction partners. iScience, 25(2), [103808]. https://doi.org/10.1016/j.isci.2022.103808

Nagaraj, M., Najarzadeh, Z., Pansieri, J., Biverstål, H., Musteikyte, G., Smirnovas, V., Matthews, S., Emanuelsson, C., Johansson, J., Buxbaum, J. N., Morozova-Roche, L. & Otzen, D. E. (2022). Chaperones mainly suppress primary nucleation during formation of functional amyloid required for bacterial biofilm formation. Chemical Science, 13(2), 536-553. https://doi.org/10.1039/d1sc05790a

Nayeri, Z., Aliakbari, F., Afzali, F., Parsafar, S., Gharib, E., Otzen, D. E. & Morshedi, D. (2022). Characterization of exogenous αSN response genes and their relation to Parkinson's disease using network analyses. Frontiers in Pharmacology, 13, [966760]. https://doi.org/10.3389/fphar.2022.966760

Grønnemose, A. L., Østerlund, E. C., Otzen, D. E. & Jørgensen, T. J. D. (2022). EGCG has Dual and Opposing Effects on the N-terminal Region of Self-associating α-synuclein Oligomers. Journal of Molecular Biology, 434(23), [167855]. https://doi.org/10.1016/j.jmb.2022.167855

Sønderby, T. V., Rasmussen, H. Ø., Frank, S. A., Skov Pedersen, J. & Otzen, D. E. (2022). Folding steps in the fibrillation of functional amyloid: denaturant sensitivity reveals common features in nucleation and elongation. Journal of Molecular Biology, 434(2), [167337]. https://doi.org/10.1016/j.jmb.2021.167337

Sønderby, T. V., Najarzadeh, Z. & Otzen, D. E. (2022). Functional Bacterial Amyloids: Understanding Fibrillation, Regulating Biofilm Fibril Formation and Organizing Surface Assemblies. Molecules, 27(13), [4080]. https://doi.org/10.3390/molecules27134080

Otzen, D. E. (2022). Functional amyloid in a lipid-like environment: a merry dance of many steps. Essays in Biochemistry. https://doi.org/10.1042/EBC20220062

Farzadfard, A., König, A., Petersen, S. V., Nielsen, J., Vasili, E., Dominguez-Meijide, A., Buell, A. K., Outeiro, T. F. & Otzen, D. E. (2022). Glycation modulates alpha-synuclein fibrillization kinetics: a sweet spot for inhibition. The Journal of Biological Chemistry, 298(5), [101848]. https://doi.org/10.1016/j.jbc.2022.101848

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Lise Refstrup Linnebjerg Pedersen