VERTEMARA JACOPO
- U03, Piano: 4, Stanza: 4064
Pubblicazioni
Frigerio, G., Donadoni, E., Siani, P., Vertemara, J., Motta, S., Bonati, L., et al. (2025). Mechanism of Ligand-Activated Nanoparticles Binding to Target Cell-Surface Receptors by All-Atom Molecular Dynamics. Intervento presentato a: 2025 MRS Spring Meeting, Seattle, USA. Dettaglio
Frigerio, G., Donadoni, E., Siani, P., Vertemara, J., Motta, S., Bonati, L., et al. (2024). Mechanism of RGD-conjugated nanodevice binding to its target protein integrin αVβ3 by atomistic molecular dynamics and machine learning. NANOSCALE, 16(8), 4063-4081 [10.1039/d3nr05123d]. Dettaglio
Frigerio, G., Donadoni, E., Siani, P., Vertemara, J., Motta, S., Bonati, L., et al. (2024). Mechanism of a nanodevice binding to its target protein by atomistic molecular dynamics: the case of RGD-conjugated PEGylated TiO2 nanoparticles binding to integrins αVβ3. Intervento presentato a: Research and Nanomedicine - June 13, 2024, Pavia, Italia. Dettaglio
Donadoni, E., Frigerio, G., Siani, P., Motta, S., Vertemara, J., De Gioia, L., et al. (2024). Molecular Dynamics for the Optimal Design of Functionalized Nanodevices to Target Folate Receptors on Tumor Cells. Intervento presentato a: NANOMIB CONFERENCE - Recent Advances in Nanomedicine: Opportunities and Challenges, Milano, Italy. Dettaglio
Govoni, S., Fantucci, P., Marchesi, N., Vertemara, J., Pascale, A., Allegri, M., et al. (2024). N-Acetylcysteine Antagonizes NGF Activation of TrkA through Disulfide Bridge Interaction, an Effect Which May Contribute to Its Analgesic Activity. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES, 25(1) [10.3390/ijms25010206]. Dettaglio