bioRxiv
Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model
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, Preprint
Hoye, M; Calviello, L; Poff, A; Ejimogu, N-E; Newman, C; Ou, J; Floor, S; Silver, D
2022
Duke Scholars
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Hoye, M., Calviello, L., Poff, A., Ejimogu, N.-E., Newman, C., Ou, J., … Silver, D. (2022). Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model. bioRxiv. https://doi.org/10.1101/2022.02.21.481343
Hoye, Mariah, Lorenzo Calviello, Abigail Poff, Nna-Emeka Ejimogu, Carly Newman, Jianhong Ou, Stephen Floor, and Debra Silver. “Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model.” BioRxiv, 2022. https://doi.org/10.1101/2022.02.21.481343.
Hoye M, Calviello L, Poff A, Ejimogu N-E, Newman C, Ou J, et al. Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model. bioRxiv. 2022.
Hoye, Mariah, et al. “Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model.” BioRxiv, 2022. Epmc, doi:10.1101/2022.02.21.481343.
Hoye M, Calviello L, Poff A, Ejimogu N-E, Newman C, Ou J, Floor S, Silver D. Aberrant cortical development is driven by impaired cell cycle and translational control in a DDX3X syndrome model. bioRxiv. 2022.