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Summary Expression Gene Literature (47) GO Terms (4) Nucleotides (153) Proteins (43) Interactants (111) Wiki
XB-GENEPAGE-922931

Papers associated with ntrk2

Search for ntrk2 morpholinos using Textpresso

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2 paper(s) referencing morpholinos

Results 1 - 47 of 47 results

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A Generalizable Optogenetic Strategy to Regulate Receptor Tyrosine Kinases during Vertebrate Embryonic Development., Krishnamurthy VV, Fu J, Oh TJ, Khamo J, Yang J, Zhang K., J Mol Biol. May 1, 2020; 432 (10): 3149-3158.


Role of TrkA signaling during tadpole tail regeneration and early embryonic development in Xenopus laevis., Iimura A, Nishida E, Kusakabe M., Genes Cells. February 1, 2020; 25 (2): 86-99.                


Prdm12 Directs Nociceptive Sensory Neuron Development by Regulating the Expression of the NGF Receptor TrkA., Desiderio S, Vermeiren S, Van Campenhout C, Kricha S, Malki E, Richts S, Fletcher EV, Vanwelden T, Schmidt BZ, Henningfeld KA, Pieler T, Woods CG, Nagy V, Verfaillie C, Bellefroid EJ., Cell Rep. January 1, 2019; 26 (13): 3522-3536.e5.                  


Transplantation of Ears Provides Insights into Inner Ear Afferent Pathfinding Properties., Gordy C, Straka H, Houston DW, Fritzsch B, Elliott KL., Dev Neurobiol. January 1, 2018; 78 (11): 1064-1080.                  


Impact of maternal n-3 polyunsaturated fatty acid deficiency on dendritic arbor morphology and connectivity of developing Xenopus laevis central neurons in vivo., Igarashi M, Santos RA, Cohen-Cory S., J Neurosci. April 15, 2015; 35 (15): 6079-92.


Brain-derived neurotrophic factor inhibits neuromuscular junction maturation in a cAMP-PKA-dependent way., Song W, Jin XA., Neurosci Lett. March 30, 2015; 591 8-12.


Non-cell-autonomous mechanism of activity-dependent neurotransmitter switching., Guemez-Gamboa A, Xu L, Meng D, Spitzer NC., Neuron. June 4, 2014; 82 (5): 1004-16.


Role of pro-brain-derived neurotrophic factor (proBDNF) to mature BDNF conversion in activity-dependent competition at developing neuromuscular synapses., Je HS, Yang F, Ji Y, Nagappan G, Hempstead BL, Lu B., Proc Natl Acad Sci U S A. September 25, 2012; 109 (39): 15924-9.


The role of brain-derived neurotrophic factor in the regulation of cell growth and gene expression in melanotrope cells of Xenopus laevis., Jenks BG, Kuribara M, Kidane AH, Kramer BM, Roubos EW, Scheenen WJ., Gen Comp Endocrinol. July 1, 2012; 177 (3): 315-21.      


Gene expression profiling of pituitary melanotrope cells during their physiological activation., Kuribara M, van Bakel NH, Ramekers D, de Gouw D, Neijts R, Roubos EW, Scheenen WJ, Martens GJ, Jenks BG., J Cell Physiol. January 1, 2012; 227 (1): 288-96.


Reciprocal regulation of axonal Filopodia and outgrowth during neuromuscular junction development., Li PP, Zhou JJ, Meng M, Madhavan R, Peng HB., PLoS One. January 1, 2012; 7 (9): e44759.            


Bidirectional remodeling of β1-integrin adhesions during chemotropic regulation of nerve growth., Carlstrom LP, Hines JH, Henle SJ, Henley JR., BMC Biol. November 30, 2011; 9 82.              


Postsynaptic TRPC1 function contributes to BDNF-induced synaptic potentiation at the developing neuromuscular junction., McGurk JS, Shim S, Kim JY, Wen Z, Song H, Ming GL., J Neurosci. October 12, 2011; 31 (41): 14754-62.                


Brain-derived neurotrophic factor stimulates growth of pituitary melanotrope cells in an autocrine way., Kuribara M, Hess MW, Cazorla M, Roubos EW, Scheenen WJ, Jenks BG., Gen Comp Endocrinol. January 1, 2011; 170 (1): 156-61.          


Mechanism of acetylcholine receptor cluster formation induced by DC electric field., Zhang HL, Peng HB., PLoS One. January 1, 2011; 6 (10): e26805.                    


Characterisation of a new regulator of BDNF signalling, Sprouty3, involved in axonal morphogenesis in vivo., Panagiotaki N, Dajas-Bailador F, Amaya E, Papalopulu N, Dorey K., Development. December 1, 2010; 137 (23): 4005-15.                                      


Functional consequences of the interactions among the neural cell adhesion molecule NCAM, the receptor tyrosine kinase TrkB, and the inwardly rectifying K+ channel KIR3.3., Kleene R, Cassens C, Bähring R, Theis T, Xiao MF, Dityatev A, Schafer-Nielsen C, Döring F, Wischmeyer E, Schachner M., J Biol Chem. September 10, 2010; 285 (37): 28968-79.


About a snail, a toad, and rodents: animal models for adaptation research., Roubos EW, Jenks BG, Xu L, Kuribara M, Scheenen WJ, Kozicz T., Front Endocrinol (Lausanne). January 1, 2010; 1 4.      


Long-range retrograde spread of LTP and LTD from optic tectum to retina., Du JL, Wei HP, Wang ZR, Wong ST, Poo MM., Proc Natl Acad Sci U S A. November 10, 2009; 106 (45): 18890-6.


Expression and physiological regulation of BDNF receptors in the neuroendocrine melanotrope cell of Xenopus laevis., Kidane AH, van Dooren SH, Roubos EW, Jenks BG., Gen Comp Endocrinol. August 1, 2007; 153 (1-3): 176-81.      


Antagonistic effects of TrkB and p75(NTR) on NMDA receptor currents in post-synaptic densities transplanted into Xenopus oocytes., Sandoval M, Sandoval R, Thomas U, Spilker C, Smalla KH, Falcon R, Marengo JJ, Calderón R, Saavedra V, Heumann R, Bronfman F, Garner CC, Gundelfinger ED, Wyneken U., J Neurochem. June 1, 2007; 101 (6): 1672-84.


Heterosynaptic scaling of developing GABAergic synapses: dependence on glutamatergic input and developmental stage., Liu Y, Zhang LI, Tao HW., J Neurosci. May 16, 2007; 27 (20): 5301-12.


Cell-autonomous TrkB signaling in presynaptic retinal ganglion cells mediates axon arbor growth and synapse maturation during the establishment of retinotectal synaptic connectivity., Marshak S, Nikolakopoulou AM, Dirks R, Martens GJ, Cohen-Cory S., J Neurosci. March 7, 2007; 27 (10): 2444-56.


Rapid BDNF-induced retrograde synaptic modification in a developing retinotectal system., Du JL, Poo MM., Nature. June 24, 2004; 429 (6994): 878-83.


Neurotrophin receptors and enteric neuronal development during metamorphosis in the amphibian Xenopus laevis., Sundqvist M, Holmgren S., Cell Tissue Res. April 1, 2004; 316 (1): 45-54.


Neurotrophin-independent attraction of growing sensory and motor axons towards developing Xenopus limb buds in vitro., Tonge DA, Pountney DJ, Leclere PG, Zhu N, Pizzey JA., Dev Biol. January 1, 2004; 265 (1): 169-80.                


Ca2+ influx-independent synaptic potentiation mediated by mitochondrial Na(+)-Ca2+ exchanger and protein kinase C., Yang F, He XP, Russell J, Lu B., J Cell Biol. November 10, 2003; 163 (3): 511-23.                    


Proteolytic processing of the p75 neurotrophin receptor and two homologs generates C-terminal fragments with signaling capability., Kanning KC, Hudson M, Amieux PS, Wiley JC, Bothwell M, Schecterson LC., J Neurosci. July 2, 2003; 23 (13): 5425-36.


Localized synaptic potentiation by BDNF requires local protein synthesis in the developing axon., Zhang Xh, Poo MM., Neuron. November 14, 2002; 36 (4): 675-88.


N-terminal tyrosine residues within the potassium channel Kir3 modulate GTPase activity of Galphai., Ippolito DL, Temkin PA, Rogalski SL, Chavkin C., J Biol Chem. September 6, 2002; 277 (36): 32692-6.


Tyrosine decaging leads to substantial membrane trafficking during modulation of an inward rectifier potassium channel., Tong Y, Brandt GS, Li M, Shapovalov G, Slimko E, Karschin A, Dougherty DA, Lester HA., J Gen Physiol. February 1, 2001; 117 (2): 103-18.                


TrkB activation by brain-derived neurotrophic factor inhibits the G protein-gated inward rectifier Kir3 by tyrosine phosphorylation of the channel., Rogalski SL, Appleyard SM, Pattillo A, Terman GW, Chavkin C., J Biol Chem. August 18, 2000; 275 (33): 25082-8.


BDNF-Induced potentiation of spontaneous twitching in innervated myocytes requires calcium release from intracellular stores., Kleiman RJ, Tian N, Krizaj D, Hwang TN, Copenhagen DR, Reichardt LF., J Neurophysiol. July 1, 2000; 84 (1): 472-83.


Brain-derived neurotrophic factor differentially regulates retinal ganglion cell dendritic and axonal arborization in vivo., Lom B, Cohen-Cory S., J Neurosci. November 15, 1999; 19 (22): 9928-38.


Expression of brain-derived neurotrophic factor and its receptor mRNA in the vestibuloauditory system of the bullfrog., Don DM, Newman AN, Micevych PE, Popper P., Hear Res. December 1, 1997; 114 (1-2): 10-20.        


Critical role of TrkB and brain-derived neurotrophic factor in the differentiation and survival of retinal pigment epithelium., Liu ZZ, Zhu LQ, Eide FF., J Neurosci. November 15, 1997; 17 (22): 8749-55.          


Potentiation of developing synapses by postsynaptic release of neurotrophin-4., Wang XH, Poo MM., Neuron. October 1, 1997; 19 (4): 825-35.


Brain-derived neurotrophic factor/neurotrophin-4 receptor TrkB is localized on ganglion cells and dopaminergic amacrine cells in the vertebrate retina., Cellerino A, Kohler K., J Comp Neurol. September 15, 1997; 386 (1): 149-60.


The cellular patterns of BDNF and trkB expression suggest multiple roles for BDNF during Xenopus visual system development., Cohen-Cory S, Escandón E, Fraser SE., Dev Biol. October 10, 1996; 179 (1): 102-15.              


Catalytic and non-catalytic forms of the neurotrophin receptor xTrkB mRNA are expressed in a pseudo-segmental manner within the early Xenopus central nervous system., Islam N, Gagnon F, Moss T., Int J Dev Biol. October 1, 1996; 40 (5): 973-83.        


Naturally occurring truncated trkB receptors have dominant inhibitory effects on brain-derived neurotrophic factor signaling., Eide FF, Vining ER, Eide BL, Zang K, Wang XY, Reichardt LF., J Neurosci. May 15, 1996; 16 (10): 3123-9.          


Brain-derived neurotrophic factor, neurotrophin-3, and neurotrophin-4 bind to a single leucine-rich motif of TrkB., Windisch JM, Marksteiner R, Lang ME, Auer B, Schneider R., Biochemistry. September 5, 1995; 34 (35): 11256-63.


Role of variable beta-hairpin loop in determining biological specificities in neurotrophin family., Ilag LL, Lönnerberg P, Persson H, Ibáñez CF., J Biol Chem. August 5, 1994; 269 (31): 19941-6.


BDNF in the development of the visual system of Xenopus., Cohen-Cory S, Fraser SE., Neuron. April 1, 1994; 12 (4): 747-61.


Similarities and differences in the way neurotrophins interact with the Trk receptors in neuronal and nonneuronal cells., Ip NY, Stitt TN, Tapley P, Klein R, Glass DJ, Fandl J, Greene LA, Barbacid M, Yancopoulos GD., Neuron. February 1, 1993; 10 (2): 137-49.


Function and evolution in the NGF family and its receptors., Ebendal T., J Neurosci Res. August 1, 1992; 32 (4): 461-70.


The trkB tyrosine protein kinase is a receptor for neurotrophin-4., Klein R, Lamballe F, Bryant S, Barbacid M., Neuron. May 1, 1992; 8 (5): 947-56.

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