bioRxiv
Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization
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D’Arcy, B; Lennox, A; Musso, CM; Bracher, A; Escobar-Tomlienovich, C; Perez-Sanchez, S; Silver, D
2022
Duke Scholars
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D’Arcy, B., Lennox, A., Musso, C. M., Bracher, A., Escobar-Tomlienovich, C., Perez-Sanchez, S., & Silver, D. (2022). Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization. bioRxiv. https://doi.org/10.1101/2022.11.18.517018
D’Arcy, Brooke, Ashley Lennox, Camila Manso Musso, Annalise Bracher, Carla Escobar-Tomlienovich, Stephany Perez-Sanchez, and Debra Silver. “Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization.” BioRxiv, 2022. https://doi.org/10.1101/2022.11.18.517018.
D’Arcy B, Lennox A, Musso CM, Bracher A, Escobar-Tomlienovich C, Perez-Sanchez S, et al. Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization. bioRxiv. 2022.
D’Arcy, Brooke, et al. “Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization.” BioRxiv, 2022. Epmc, doi:10.1101/2022.11.18.517018.
D’Arcy B, Lennox A, Musso CM, Bracher A, Escobar-Tomlienovich C, Perez-Sanchez S, Silver D. Subcellular proteome of radial glia reveals non-muscle myosins control basal endfeet to mediate interneuron organization. bioRxiv. 2022.