RICCI, RAFFAELE
RICCI, RAFFAELE
DIPARTIMENTO DI MEDICINA E CHIRURGIA (SCHOOL OF MEDICINE AND SURGERY)
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Amorphous silica nanoparticles alter microtubule dynamics and cell migration
2015 Gonzalez, L; De Santis Puzzonia, M; Ricci, R; Aureli, F; Guarguaglini, G; Cubadda, F; Leyns, L; Cundari, E; Kirsch-Volders, M
dCas9-based Scn1a gene activation restores inhibitory interneuron excitability and attenuates seizures in Dravet Syndrome mice
2020 Colasante, G; Lignani, G; Brusco, S; Di Berardino, C; Carpenter, J; Giannelli, S; Valassina, N; Bido, S; Ricci, R; Castoldi, V; Marenna, S; Church, T; Massimino, L; Morabito, G; Benfenati, F; Schorge, S; Leocani, L; Kullmann, D; Vania Broccoli, A
CRISPR/dCas9 as a Therapeutic Approach for Neurodevelopmental Disorders: Innovations and Limitations Compared to Traditional Strategies
2021 Ricci, R; Colasante, G
Activatory CRISPR/dCa9 as a therapeutic strategy in Dravet Syndrome
2022 Ricci, R
| Titolo | Tipologia | Data di pubblicazione | Autori | File |
|---|---|---|---|---|
| Amorphous silica nanoparticles alter microtubule dynamics and cell migration | 01 - Articolo su rivista | 2015 | Ricci R. + | |
| dCas9-based Scn1a gene activation restores inhibitory interneuron excitability and attenuates seizures in Dravet Syndrome mice | 01 - Articolo su rivista | 2020 | Raffaele Ricci + | |
| CRISPR/dCas9 as a Therapeutic Approach for Neurodevelopmental Disorders: Innovations and Limitations Compared to Traditional Strategies | 01 - Articolo su rivista | 2021 | Ricci R. + | |
| Activatory CRISPR/dCa9 as a therapeutic strategy in Dravet Syndrome | 07 - Tesi di dottorato Bicocca post 2009 | 2022 | RICCI, RAFFAELE |