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  1. 1.   Considerations for a Reliable In Vitro Model of Chemotherapy-Induced Peripheral Neuropathy
  2. Eldridge, Sandy; Scuteri, Arianna; Jones, Eugenia M. C.; Cavaletti, Guido; Guo, Liang; Glaze, Elizabeth
  3. Toxics. 2021, Nov 11; 9(11):
  1. 2.   TrkA in vivo function is negatively regulated by ubiquitination
  2. Kiris, E.; Wang, T.; Yanpallewar, S.; Dorsey, S. G.; Becker, J.; Bavari, S.; Palko, M. E.; Coppola, V.; Tessarollo, L.
  3. Journal of Neuroscience. 2014, 12-Mar; 34(11): 4090-8.
  1. 3.   Painful Pathways Induced by TLR Stimulation of Dorsal Root Ganglion Neurons
  2. Qi, J.; Buzas, K.; Fan, H. T.; Cohen, J. I.; Wang, K. N.; Mont, E.; Klinman, D.; Oppenheim, J. J.; Howard, O. M. Z.
  3. Journal of Immunology. 2011, Jun; 186(11): 6417-6426.
  1. 4.   Sortilin associates with Trk receptors to enhance anterograde transport and neurotrophin signaling
  2. Vaegter, C. B.; Jansen, P.; Fjorback, A. W.; Glerup, S.; Skeldal, S.; Kjolby, M.; Richner, M.; Erdmann, B.; Nyengaard, J. R.; Tessarollo, L.; Lewin, G. R.; Willnow, T. E.; Chao, M. V.; Nykjaer, A.
  3. Nature Neuroscience. 2011, Jan; 14(1): 54-U78.
  1. 5.   Fgf8 induces pillar cell fate and regulates cellular patterning in the mammalian cochlea
  2. Jacques, B. E.; Montcouquiol, M. E.; Layman, E. M.; Lewandoski, M.; Kelley, M. W.
  3. Development. 2007, Aug; 134(16): 3021-3029.
  1. 6.   Brain-derived neurotrophic factor (BDNF) is required for the enhancement of hippocampal neurogenesis following environmental enrichment
  2. Rossi, C.; Angelucci, A.; Costantin, L.; Braschi, C.; Mazzantini, M.; Babbini, F.; Fabbri, M. E.; Tessarollo, L.; Maffei, L.; Berardi, N.; Caleo, M.
  3. European Journal of Neuroscience. 2006, Oct; 24(7): 1850-1856.
  1. 7.   Asymmetric localization of Vangl2 and Fz3 indicate novel mechanisms for planar cell polarity in mammals
  2. Montcouquiol, M.; Sans, N.; Huss, D.; Kach, J.; Dickman, J. D.; Forge, A.; Rachel, R. A.; Copeland, N. G.; Jenkins, N. A.; Bogani, D.; Murdoch, J.; Warchol, M. E.; Wenthold, R. J.; Kelley, M. W.
  3. Journal of Neuroscience. 2006, MAY 10; 26(19): 5265-5275.
  1. 8.   The FGF8 signaling pathway regulates differentiation during the development of the cochlear sensory epithelium
  2. Jacques, B. E.; Layman, E. M.; Lewandoski, M.; Kelley, M. W.
  3. Developmental Biology. 2005, JUL 15; 283(2): 631, Abstract 278-631, Abstract 278.
  1. 9.   Induction and cell fate specification in early eye development
  2. Mathers, P.; Voronina, V.; Kozhemyakina, E.; Bennett, V.; Zamora, B.; Lewandoski, M.
  3. Developmental Biology. 2005, JUL 15; 283(2): 634, Abstract 291-635, Abstract 291.
  1. 10.   Conditional alleles for activation and inactivation of the mouse Rx homeobox gene
  2. Voronina, V. A.; Kozlov, S.; Mathers, P. H.; Lewandoski, M.
  3. Genesis. 2005, APR; 41(4): 160-164.
  1. 11.   Pacinian corpuscle development involves multiple Trk signaling pathways
  2. Sedy, J.; Szeder, V.; Walro, J. M.; Ren, Z. G.; Nanka, O.; Tessarollo, L.; Sieber-Blum, M.; Grim, M.; Kucera, J.
  3. Developmental Dynamics. 2004, NOV; 231(3): 551-563.
  1. 12.   The Rx homeobox gene is required for both neural retina and lens placode induction
  2. Mathers, P. H.; Voronina, V. A.; Wilson, C.; Kozlov, S. V.; Lewandoski, M.
  3. Investigative Ophthalmology & Visual Science. 2004, APR; 45(Suppl. 1): 2249, U808-2249, U808.
  1. 13.   Neurotrophins in the ear: their roles in sensory neuron survival and fiber guidance
  2. Fritzsch, B.; Tessarollo, L.; Coppola, E.; Reichardt, L. F.
  3. Ngf and Related Molecules in Health and Disease. 2004 146: 265-278.
  1. 14.   NT-3 replacement with brain-derived neurotrophic factor redirects vestibular nerve fibers to the cochlea
  2. Tessarollo, L.; Coppola, V.; Fritzsch, B.
  3. Journal of Neuroscience. 2004 24(10): 2575-2584.
  1. 15.   Proinflammatory chemokines, such as C-C chemokine ligand 3, desensitize mu-opioid receptors on dorsal root ganglia neurons
  2. Zhang, N.; Rogers, T. J.; Caterina, M.; Oppenheim, J. J.
  3. Journal of Immunology. 2004 173(1): 594-599.
  1. 16.   Diverse dependencies of developing Merkel innervation on the trkA and both full-length and truncated isoforms of trkC
  2. Cronk, K. M.; Wilkinson, G. A.; Grimes, R.; Wheeler, E. F.; Jhaveri, S.; Fundin, B. T.; Silos-Santiago, I.; Tessarollo, L.; Reichardt, L. F.; Rice, F. L.
  3. Development. 2002 129(15): 3739-3750.
  1. 17.   Localization of the Drosophila MAGUK protein Polychaetoid is controlled by alternative splicing
  2. Wei, X. R.; Ellis, H. M.
  3. Mechanisms of Development. 2001 100(2): 217-231.
  1. 18.   Dissection of NT3 functions in vivo by gene replacement strategy
  2. Coppola, V.; Kucera, J.; Palko, M. E.; Martinez-De Velasco, J.; Lyons, W. E.; Fritzsch, B.; Tessarollo, L.
  3. Development. 2001 128(21): 4315-4327.
  1. 19.   Spatial shaping of cochlear innervation by temporally regulated neurotrophin expression
  2. Farinas, I.; Jones, K. R.; Tessarollo, L.; Vigers, A. J.; Huang, E.; Kirstein, M.; de Caprona, D. C.; Coppola, V.; Backus, C.; Reichardt, L. F.; Fritzsch, B.
  3. Journal of Neuroscience. 2001 21(16): 6170-6180.
  1. 20.   Disrupted cortical map and absence of cortical barrels in growth-associated protein (GAP)-43 knockout mice
  2. Maier, D. L.; Mani, S.; Donovan, S. L.; Soppet, D.; Tessarollo, L.; McCasl, J. S.; Meiri, K. F.
  3. Proceedings of the National Academy of Sciences of the United States of America. 1999 96(16): 9397-9402.
  1. 21.   Evidence for a role of truncated trkC receptor isoforms in mouse development
  2. Palko, M. E.; Coppola, V.; Tessarollo, L.
  3. Journal of Neuroscience. 1999 19(2): 775-782.
  1. 22.   Netrin-3, a mouse homolog of human NTN2L, is highly expressed in sensory ganglia and shows differential binding to netrin receptors
  2. Wang, H.; Copeland, N. G.; Gilbert, D. J.; Jenkins, N. A.; Tessier-Lavigne, M.
  3. Journal of Neuroscience. 1999 19(12): 4938-4947.
  1. 23.   Distribution of the Neurotrophins Brain-Derived Neurotrophic Factor, Neurotrophin-3, and Neurotrophin-4/5 in the Postnatal Rat Brain - an Immunocytochemical Study
  2. Friedman, W. J.; Black, I. B.; Kaplan, D. R.
  3. Neuroscience. 1998 84(1): 101-114.
  1. 24.   Three-Dimensional Model of Sensory Rhodopsin I Reveals Important Restraints Between the Protein and the Chromophore
  2. Lin, S. L.; Yan, B.
  3. Protein Engineering. 1997 10(3): 197-206.
  1. 25.   Absence of Sensory Neurons Before Target Innervation in Brain-Derived Neurotrophic Factor-, Neurotrophin 3-, and Trkc-Deficient Embryonic Mice
  2. Liebl, D. J.; Tessarollo, L.; Palko, M. E.; Parada, L. F.
  3. Journal of Neuroscience. 1997 17(23): 9113-9121.
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