Combining Graphical and Analytical Methods with Molecular Simulations to Analyze Time-resolved FRET-measurements of Labeled Macromolecules Accurately“, Thomas-O. Peulen, Oleg Opanasyuk, Claus A.M. Seidel, 2017, Journal of Physical Chemistry B (link)

Quantitative FRET studies and integrative modelling unravel the structure and dynamics of biomolecular systems“, M. Dimura, T.-O. Peulen, C. A. Hanke, A. Prakash, H. Gohlke, and C. A. Seidel,  2016, Current Opinion in Structural Biology, 40, 163-185. (link)

Structural assemblies of the di-and oligomeric G-protein coupled receptor TGR5 in live cells: an MFIS-FRET and integrative modelling study“, Annemarie Greife, Suren Felekyan, Qijun Ma, Christoph GW Gertzen, Lina Spomer, Mykola Dimura, Thomas-O. Peulen, Christina Wöhler, Dieter Häussinger, Holger Gohlke, Verena Keitel, Claus AM Seidel, 2016, Scientific Reports, 6, 36792. (link)

Guanylate binding proteins, (GBPs) 1 directly attack T. gondii via supramolecular complexes“, E. Kravets, D. D., Q. Ma, T.-O. Peulen, S. Felekyan, R. Kühnemuth, S. Weidtkamp-Peters, C. Seidel, and K. Pfeffer, 2016, eLife, e11479.

Triphosphate induced dimerization of human guanylate binding protein 1 involves association of the C-terminal helices: A joint Double Electron-Electron Resonance and FRET study“, T. Vöpel, C. Hengstenberg, T.-O. Peulen, A. Y., C. Seidel, C. Herrmann, and J. Klare, 2014, Biochemistry, 53, 4590-4600.

A toolkit and benchmark study for FRET-restrained high-precision structural modelling“, Stanislav Kalinin, Thomas-O. Peulen, Simon Sindbert, Paul J Rothwell, Sylvia Berger, Tobias Restle, Roger S Goody, Holger Gohlke, Claus AM Seidel, 2012, Nature Methods, 9, 1218.

Diffusion of nanoparticles in a biofilm“, T.-O. Peulen and K. J. Wilkinson, 2011,Environmental Science & Technology, 45, 3367-3373.