Guanine quadruplexes (GQs) play crucial roles in various biological processes, and understanding their folding pathways provides insight into their stability, dynamics, and functions. This knowledge aids in designing therapeutic strategies, as GQs are potential targets for anticancer drugs and other therapeutics. Although experimental and theoretical techniques have provided valuable insights into different stages of the GQ folding, the structural complexity of GQs poses significant challenges, and our understanding remains incomplete. This study introduces a novel computational protocol for folding an entire GQ from single-strand conformation to its native state. By combining two complementary enhanced sampling techniques, we were able to model folding pathways, encompassing a diverse range of intermediates. Although our investigation of the GQ free energy surface (FES) is focused solely on the folding of the all-anti parallel GQ topology, this protocol has the potential to be adapted for the folding of systems with more complex folding landscapes.
Computer Folding of Parallel DNA G‐Quadruplex: Hitchhiker's Guide to the Conformational Space / Janeček, Michal; Kührová, Petra; Mlýnský, Vojtěch; Stadlbauer, Petr; Otyepka, Michal; Bussi, Giovanni; Šponer, Jiří; Banáš, Pavel. - In: JOURNAL OF COMPUTATIONAL CHEMISTRY. - ISSN 0192-8651. - 46:1(2025). [10.1002/jcc.27535]
Computer Folding of Parallel DNA G‐Quadruplex: Hitchhiker's Guide to the Conformational Space
Stadlbauer, Petr;Otyepka, Michal;Bussi, Giovanni;
2025-01-01
Abstract
Guanine quadruplexes (GQs) play crucial roles in various biological processes, and understanding their folding pathways provides insight into their stability, dynamics, and functions. This knowledge aids in designing therapeutic strategies, as GQs are potential targets for anticancer drugs and other therapeutics. Although experimental and theoretical techniques have provided valuable insights into different stages of the GQ folding, the structural complexity of GQs poses significant challenges, and our understanding remains incomplete. This study introduces a novel computational protocol for folding an entire GQ from single-strand conformation to its native state. By combining two complementary enhanced sampling techniques, we were able to model folding pathways, encompassing a diverse range of intermediates. Although our investigation of the GQ free energy surface (FES) is focused solely on the folding of the all-anti parallel GQ topology, this protocol has the potential to be adapted for the folding of systems with more complex folding landscapes.| File | Dimensione | Formato | |
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J Comput Chem - 2024 - Janeček - Computer Folding of Parallel DNA G‐Quadruplex Hitchhiker s Guide to the Conformational.pdf
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