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BP: Fachverband Biologische Physik

BP 1: Protein Structure and Dynamics

BP 1.7: Vortrag

Montag, 12. März 2018, 11:30–11:45, H 1028

The relevance of conformational entropy for ligand-protein interactions: The case of biotin and streptavidin — •Mona Sarter^1,2, Andreas Stadler¹, Doreen Niether¹, Bernd König¹, Simone Wiegand^1,3, Jörg Fitter^1,2, Michaela Zamponi¹, Wiebke Lohstroh⁴, and Niina Jalarvo⁵ — ¹FZJ Jülich — ²RWTH Aachen — ³Universität zu Köln — ⁴TUM München — ⁵SNS Oak Ridge

Molecular dynamics play a vital role for the biological function of proteins. For protein ligand interactions changes of conformational entropy of the protein and the hydration layer are relevant for the binding process. In an experimental study we investigated the relevance of conformational entropy for the binding of biotin to the protein streptavidin. In order to investigate the proteins conformational entropy and dynamics quasi elastic neutron scattering (QENS) was used, for the protein and hydration layer isothermal titration caliometry (ITC) was used and for the hydration layer thermodiffusion (TDFRS) was used.

QENS results show that the conformational entropy of streptavidin is reduced upon biotin binding, while ITC results show that the conformational entropy of the hydration layer increases upon biotin binding. TDFRS results also indicate an increased entropy of the hydration layer. This leads to the conclusion that the hydration layer plays an important role in stabilising the binding of biotin to streptavidin. The internal streptavidin dynamics before and after biotin binding were compared. This showed that the flexibility of streptavidin is greatly reduced upon biotin binding leading to the complex being more rigid.