STONE LAB
Stone, JS, Wisner, S, Bucks, S, Mellado Lagarde, M, Cox, B (2018) Characterization of adult vestibular organs in eleven CreER mouse lines. Journal for the Association for Research in Otolaryngology 9(4):381-399.[ PubMed]
Warchol ME, Massoodnia R, Pujol R, Cox BC, Stone JS (2019) Development of hair cell phenotype and calyx nerve terminals in the neonatal mouse utricle. J Comp Neurol 527(11):1913-1928.[ PubMed]
Hicks KL, Wisner SR, Cox BC, Stone JS (2020) Atoh1 is required in supporting cells for regeneration of vestibular hair cells in adult mice. Hear Res. 385:107838.[PubMed]
Wan L, Lovett M, Warchol ME, Stone JS (2020) Vascular endothelial growth factor is required for regeneration of auditory hair cells in the avian inner ear. Hear Res 385:107839. [PubMed]
Stone JS, Pujol R, Nguyen TB, Cox BC (2021) The transcription factor Sox2 is required to maintain the cell type-specific properties and innervation of type II vestibular hair cells in adult mice. J Neurosci 41(29):6217-33.[ PubMed]
González-Garrido A, Pujol R, López-Ramírez O, Finkbeiner C, Eatock RA, Stone JS (2021) The differentiation status of hair cells that regenerate naturally in the vestibular inner ear of the adult mouse J Neurosci 41(37):7779-7796. [PubMed]
Ciani Berlingeri AN, Pujol R, Cox BC, Stone JS (2022) Sox2 is required in supporting cells for normal levels of vestibular hair cell regeneration in adult mice. Hear Res 426:108642.[ PubMed]
McGovern MM, Hartman B, Thawani A, Maunsell H, Zhang H, Yousaf R, Heller S, Stone J, Groves AK (2023) Fbxo2CreERT2: A new model for targeting cells in the neonatal and mature inner ear. Hear Res. 428:108686. [PubMed]
Jáuregui EJ, Scheinman KL, Bibriesca Mejia I, Pruett L, Zaini H, Finkbeiner C, Phillips JA Gantz JA, Nguyen TB, Phillips JO, Stone JS (2024) Sensorineural correlates of failed functional recovery after natural regeneration of vestibular hair cells in adult mice. Front Neurol. 15: 1322647.[ PubMed]
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