Exploring Markov Processes Variational Approach for Dynamics Prediction of Antiviral Peptides

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Abstract

This work explores the application of the Variational Approach for Markov Processes (VAMP) in predicting the conformational dynamics of the antiviral peptide DENV-2 (CGYGLC) in an aqueous solution. A 10 ns molecular dynamics simulation is performed using AMBER, analyzing dihedral angles as the primary structural descriptors. Using VAMP, the temporal evolution of these angles is modeled through an approximation of the Koopman operator. Canonical correlation matrices are constructed to estimate the best representation of the system's slow dynamics. Finally, the dihedral angle values are predicted using a Singular Value Decomposition (SVD) applied to the evolution of molecular coordinates.

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Programme
16:45 to 17:45 on 09/16/2025
Foyer 12 andar - ST…
Institutions
  • 1 Facultad Politécnica Universidad Nacional de Asunción
  • 2 Facultad Politécnica, Universidad Nacional de Asunción
  • 3 Facultad Politécnica, Universidad de Asunción
  • 4 Universidade Federal do Rio de Janeiro
Track
  • ST02 - Biomathematics
Keywords
Variational Approach for Markov Processes (VAMP)
Koopman Operator
Dihedral Angles
Molecular Dynamics (MD) Simulations
Antiviral Peptide Dynamics