Feline Lindhout
2 60 mice’, Nat Commun, 5: 4827. Kobayashi, D., J. Kumagai, T. Morikawa, M. Wilson-Morifuji, A. Wilson, A. Irie, and N. Araki. 2009. ‘An integrated approach of differential mass spectrometry and gene ontology analysis identified novel proteins regulating neuronal differentiation and survival’, Mol Cell Proteomics, 8: 2350-67. Kolde R. 2019. pheatmap: Pretty Heatmaps. R package version 1.0.12. Kole, M. H., S. U. Ilschner, B. M. Kampa, S. R. Williams, P. C. Ruben, and G. J. Stuart. 2008. ‘Action potential generation requires a high sodium channel density in the axon initial segment’, Nat Neurosci, 11: 178-86. Leterrier, C. 2018. ‘The Axon Initial Segment: An Updated Viewpoint’, J Neurosci, 38: 2135-45. Leterrier, C., H. Vacher, M. P. Fache, S. A. d’Ortoli, F. Castets, A. Autillo-Touati, and B. Dargent. 2011. ‘End-binding proteins EB3 and EB1 link microtubules to ankyrin G in the axon initial segment’, Proc Natl Acad Sci U S A, 108: 8826-31. Linaro, D., B. Vermaercke, R. Iwata, A. Ramaswamy, B. Libe-Philippot, L. Boubakar, B. A. Davis, K. Wierda, K. Davie, S. Poovathingal, P. A. Penttila, A. Bilheu, L. De Bruyne, D. Gall, K. K. Conzelmann, V. Bonin, and P. Vanderhaeghen. 2019. ‘Xenotransplanted Human Cortical Neurons Reveal Species-Specific Development and Functional Integration into Mouse Visual Circuits’, Neuron, 104: 972-86.e6. Lois, C., E. J. Hong, S. Pease, E. J. Brown, and D. Baltimore. 2002. ‘Germline transmission and tissue-specific expression of transgenes delivered by lentiviral vectors’, Science, 295: 868- 72. Marchetto, M. C., B. Hrvoj-Mihic, B. E. Kerman, D. X. Yu, K. C. Vadodaria, S. B. Linker, I. Narvaiza, R. Santos, A. M. Denli, A. P. Mendes, R. Oefner, J. Cook, L. McHenry, J. M. Grasmick, K. Heard, C. Fredlender, L. Randolph-Moore, R. Kshirsagar, R. Xenitopoulos, G. Chou, N. Hah, A. R. Muotri, K. Padmanabhan, K. Semendeferi, and F. H. Gage. 2019. ‘Species-specific maturation profiles of human, chimpanzee and bonobo neural cells’, Elife, 8. Marro, S. G., S. Chanda, N. Yang, J. A. Janas, G. Valperga, J. Trotter, B. Zhou, S. Merrill, I. Yousif, H. Shelby, H. Vogel, M. Y. S. Kalani, T. C. Sudhof, and M. Wernig. 2019. ‘Neuroligin-4 Regulates Excitatory Synaptic Transmission in Human Neurons’, Neuron, 103: 617-26.e6. Meijer, M., K. Rehbach, J. W. Brunner, J. A. Classen, H. C. A. Lammertse, L. A. van Linge, D. Schut, T. Krutenko, M. Hebisch, L. N. Cornelisse, P. F. Sullivan, M. Peitz, R. F. Toonen, O. Brustle, and M. Verhage. 2019. ‘A Single-Cell Model for Synaptic Transmission and Plasticity in Human iPSC-Derived Neurons’, Cell Rep, 27: 2199-211.e6. Molnar, Z., and G. Clowry. 2012. ‘Cerebral cortical development in rodents and primates’, Prog Brain Res, 195: 45-70. Moore, A. R., R. Filipovic, Z. Mo, M. N. Rasband, N. Zecevic, and S. D. Antic. 2009. ‘Electrical excitability of early neurons in the human cerebral cortex during the second trimester of gestation’, Cereb Cortex, 19: 1795-805. Murillo, J. R., L. Goto-Silva, A. Sanchez, F. C. S. Nogueira, G. B. Domont, and M. Junqueira. 2017. ‘Quantitative proteomic analysis identifies proteins and pathways related to neuronal development in differentiated SH-SY5Y neuroblastoma cells’, EuPA Open Proteom, 16: 1-11. Nicholas, C. R., J. Chen, Y. Tang, D. G. Southwell, N. Chalmers, D. Vogt, C. M. Arnold, Y. J. Chen,
Made with FlippingBook
RkJQdWJsaXNoZXIy ODAyMDc0