VERTEMARA JACOPO

Ruolo:
Tecnico - amministrativo
Telefono:
Stanza:
  • 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