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Activation of coagulation factor X (FX) is arguably the most important step in the formation of blood clots. When tissues are damaged by external injury, FX activation is initiated by the formation of a complex between FVIIa and tissue factor, which binds and activates FX after anchoring into negatively charged cellular membranes. This key step involves the formation of a tripartite complex on the membrane, which was earlier modeled by Resource researchers and published in Blood Advances. In collaboration with the Ohi lab and Morrissey lab at the University of Michigan, the previous model is now largely confirmed by the first cryo-EM structure of the complex on the membrane, a study reported as a cover story in Blood.
The Future of Biomolecular Modeling
A 2015 TCBG Symposium brought together scientists from across the Midwest to brainstorm about what's on the horizon for computational modeling. See a summary of what these experts foresee.
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TCBG and the National Strategic Computing Initiative
Now that the U.S. has a clear directive to build an exascale computer, Klaus Schulten weighs in on what this could mean for the field of computational biophysics.
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Remembering Klaus Schulten
Recent Publications All Publications
- LetA defines a structurally distinct transporter family. Nature, 2026.
- Simulating Gas Permeation Through the Central Pore of AQP5. Adv Exp Med Biol., 1498:105–113. 2026.
- Elevator mechanism dynamics in a sodium-coupled dicarboxylate transporter. Proc. Natl. Acad. Sci. U.S.A., 123(2):e2500723123. 2026.
- Impact of Lipid Composition on Membrane Partitioning and Permeability of Gas Molecules. Membranes, 16(1):33. 2026.
- Probing the role of membrane in neutralizing activity of antibodies against influenza virus. Structure, 34(2):254–263. 2026.
- Impact of anionic lipids on the energy landscape of conformational transition in anion exchanger 1 (AE1). Nat. Commun., 16:11664. 2025.
- Drug-bound outward-facing conformation of a heterodimeric ABC exporter suggests a putative mechanism of drug translocation. Nat. Commun., 16:10403. 2025.
Highly Cited
First passage time approach to diffusion controlled reactions. Journal of Chemical Physics, 72:4350-4357, 1980.
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Click here for other highly cited papers
