Taha Jan
Affiliations: | Otolaryngology | Stanford University, Palo Alto, CA |
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| Wang T, Ling AH, Billings SE, et al. (2024) Single-cell transcriptomic atlas reveals increased regeneration in diseased human inner ear balance organs. Nature Communications. 15: 4833 |
| Benkafadar N, Sato MP, Ling AH, et al. (2023) An essential signaling cascade for avian auditory hair cell regeneration. Developmental Cell |
| Scheibinger M, Janesick A, Benkafadar N, et al. (2022) Cell-type identity of the avian utricle. Cell Reports. 40: 111432 |
| Jan TA, Eltawil Y, Ling AH, et al. (2021) Spatiotemporal dynamics of inner ear sensory and non-sensory cells revealed by single-cell transcriptomics. Cell Reports. 36: 109358 |
| Benkafadar N, Janesick A, Scheibinger M, et al. (2021) Transcriptomic characterization of dying hair cells in the avian cochlea. Cell Reports. 34: 108902 |
| Kubota M, Scheibinger M, Jan TA, et al. (2021) Greater epithelial ridge cells are the principal organoid-forming progenitors of the mouse cochlea. Cell Reports. 34: 108646 |
| Jan TA, Jansson L, Atkinson PJ, et al. (2016) Profiling Specific Inner Ear Cell Types Using Cell Sorting Techniques. Methods in Molecular Biology (Clifton, N.J.). 1427: 431-45 |
| Volkenstein S, Oshima K, Sinkkonen ST, et al. (2013) Transient, afferent input-dependent, postnatal niche for neural progenitor cells in the cochlear nucleus. Proceedings of the National Academy of Sciences of the United States of America. 110: 14456-61 |
| Herget M, Scheibinger M, Guo Z, et al. (2013) A simple method for purification of vestibular hair cells and non-sensory cells, and application for proteomic analysis. Plos One. 8: e66026 |
| Jan TA, Chai R, Sayyid ZN, et al. (2013) Tympanic border cells are Wnt-responsive and can act as progenitors for postnatal mouse cochlear cells. Development (Cambridge, England). 140: 1196-206 |