Citations

(167 total)

Feature: mi2001Tg

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Amini, R., Bhatnagar, A., Schlüßler, R., Möllmert, S., Guck, J., Norden, C. (2022) Amoeboid-like migration ensures correct horizontal cell layer formation in the developing vertebrate retina. eLIFE. 11:
Bahrami, N., Childs, S.J. (2020) Development of vascular regulation in the zebrafish embryo. Development (Cambridge, England). 147(10):
Barbosa, J.S., Di Giaimo, R., Götz, M., Ninkovic, J. (2016) Single-cell in vivo imaging of adult neural stem cells in the zebrafish telencephalon. Nature Protocols. 11:1360-1370
Barbosa, J.S., Ninkovic, J. (2016) Adult neural stem cell behavior underlying constitutive and restorative neurogenesis in zebrafish. Neurogenesis (Austin, Tex.). 3:e1148101
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Bekri, A., Liao, M., Drapeau, P. (2019) Glycine Regulates Neural Stem Cell Proliferation During Development via Lnx1-Dependent Notch Signaling. Frontiers in molecular neuroscience. 12:44
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Bernardos, R.L., Barthel, L.K., Meyers, J.R., and Raymond, P.A. (2007) Late-stage neuronal progenitors in the retina are radial Müller glia that function as retinal stem cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 27(26):7028-7040
Bibliowicz, J., and Gross, J.M. (2011) Ectopic proliferation contributes to retinal dysplasia in the juvenile zebrafish patched2 mutant eye. Investigative ophthalmology & visual science. 52(12):8868-77
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Calinescu, A.A., Vihtelic, T.S., Hyde, D.R., and Hitchcock, P.F. (2009) Cellular expression of Midkine-a and Midkine-b during retinal development and photoreceptor regeneration in zebrafish. The Journal of comparative neurology. 514(1):1-10
Chapouton, P., Skupien, P., Hesl, B., Coolen, M., Moore, J.C., Madelaine, R., Kremmer, E., Faus-Kessler, T., Blader, P., Lawson, N.D., and Bally-Cuif, L. (2010) Notch activity levels control the balance between quiescence and recruitment of adult neural stem cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 30(23):7961-7974
Charlton-Perkins, M., Almeida, A.D., MacDonald, R.B., Harris, W.A. (2019) Genetic control of cellular morphogenesis in Müller glia. Glia. 67(7):1401-1411
Chen, H.L., Yuh, C.H., and Wu, K.K. (2010) Nestin Is Essential for Zebrafish Brain and Eye Development through Control of Progenitor Cell Apoptosis. PLoS One. 5(2):e9318
Chen, L., Watson, C., Morsch, M., Cole, N.J., Chung, R.S., Saunders, D.N., Yerbury, J.J., Vine, K.L. (2017) Improving the Delivery of SOD1 Antisense Oligonucleotides to Motor Neurons Using Calcium Phosphate-Lipid Nanoparticles. Frontiers in neuroscience. 11:476
Conedera, F.M., Quintela Pousa, A.M., Presby, D.M., Mercader, N., Enzmann, V., Tschopp, M. (2020) Diverse Signaling by TGFβ Isoforms in Response to Focal Injury is Associated with Either Retinal Regeneration or Reactive Gliosis. Cellular and molecular neurobiology. 41(1):43-62
Coolen, M., Labusch, M., Mannioui, A., Bally-Cuif, L. (2020) Mosaic Heterochrony in Neural Progenitors Sustains Accelerated Brain Growth and Neurogenesis in the Juvenile Killifish N. furzeri. Current biology : CB. 30(4):736-745.e4
Coomer, C.E., Wilson, S.G., Titialii-Torres, K.F., Bills, J.D., Krueger, L.A., Petersen, R.A., Turnbaugh, E.M., Janesch, E.L., Morris, A.C. (2020) Her9/Hes4 is required for retinal photoreceptor development, maintenance, and survival. Scientific Reports. 10:11316
Craig, S.E., Thummel, R., Ahmed, H., Vasta, G.R., Hyde, D., and Hitchcock, P.F. (2010) The Zebrafish Galectin Drgal1-L2 Is Expressed by Proliferating Müller Glia and Photoreceptor Progenitors and Regulates the Regeneration of Rod Photoreceptors. Investigative ophthalmology & visual science. 51(6):3244-3252
D'Orazi, F.D., Suzuki, S.C., Darling, N., Wong, R.O., Yoshimatsu, T. (2020) Conditional and biased regeneration of cone photoreceptor types in the zebrafish retina. The Journal of comparative neurology. 528(17):2816-2830
DeOliveira-Mello, L., Lara, J.M., Arévalo, R., Velasco, A., Mack, A.F. (2019) Sox2 Expression in the Visual System of two Teleost Species. Brain research. 1722:146350
DeOliveira-Mello, L., Mack, A.F., Lara, J.M., Arévalo, R. (2021) Cultures of glial cells from optic nerve of two adult teleost fish: Astatotilapia burtoni and Danio rerio. Journal of Neuroscience Methods. 353:109096
Di Giaimo, R., Durovic, T., Barquin, P., Kociaj, A., Lepko, T., Aschenbroich, S., Breunig, C.T., Irmler, M., Cernilogar, F.M., Schotta, G., Barbosa, J.S., Trümbach, D., Baumgart, E.V., Neuner, A.M., Beckers, J., Wurst, W., Stricker, S.H., Ninkovic, J. (2018) The Aryl Hydrocarbon Receptor Pathway Defines the Time Frame for Restorative Neurogenesis. Cell Reports. 25:3241-3251.e5
Didiano, D., Abner, J.J., Hinger, S.A., Flickinger, Z., Kent, M., Clement, M.A., Balaiya, S., Liu, Q., Dai, X., Levine, E.M., Patton, J.G. (2020) Induction of a proliferative response in the zebrafish retina by injection of extracellular vesicles. Experimental Eye Research. 200:108254
Doganli, C., Beck, H.C., Ribera, A.B., Oxvig, C., and Lykke-Hartmann, K. (2013) α3Na+/K+-ATPase Deficiency Causes Brain Ventricle Dilation and Abrupt Embryonic Motility in Zebrafish. The Journal of biological chemistry. 288(13):8862-8874
Doganli, C., Kjaer-Sorensen, K., Knoeckel, C., Beck, H.C., Nyengaard, J.R., Honoré, B., Nissen, P., Ribera, A., Oxvig, C., and Lykke-Hartmann, K. (2012) The alpha2Na+/K+-ATPase is critical for skeletal and heart muscle function in zebrafish. Journal of Cell Science. 125(24):6166-6175
Doodnath, R., Dervan, A., Wride, M.A., and Puri, P. (2010) Zebrafish: an exciting model for investigating the spatio-temporal pattern of enteric nervous system development. Pediatric surgery international. 26(12):1217-1221
Dozawa, M., Kono, H., Sato, Y., Ito, Y., Tanaka, H., Ohshima, T. (2014) Valproic acid, a histone deacetylase inhibitor, regulates cell proliferation in the adult zebrafish optic tectum. Developmental Dynamics : an official publication of the American Association of Anatomists. 243(11):1401-15
Dray, N., Bedu, S., Vuillemin, N., Alunni, A., Coolen, M., Krecsmarik, M., Supatto, W., Beaurepaire, E., Bally-Cuif, L. (2015) Large-scale live imaging of adult neural stem cells in their endogenous niche. Development (Cambridge, England). 142(20):3592-600
Dray, N., Mancini, L., Binshtok, U., Cheysson, F., Supatto, W., Mahou, P., Bedu, S., Ortica, S., Than-Trong, E., Krecsmarik, M., Herbert, S., Masson, J.B., Tinevez, J.Y., Lang, G., Beaurepaire, E., Sprinzak, D., Bally-Cuif, L. (2021) Dynamic spatiotemporal coordination of neural stem cell fate decisions occurs through local feedback in the adult vertebrate brain. Cell Stem Cell. 28(8):1457-1472.e12
Duval, M.G., Chung, H., Lehmann, O.J., and Allison, W.T. (2013) Longitudinal fluorescent observation of retinal degeneration and regeneration in zebrafish using fundus lens imaging. Molecular Vision. 19:1082-1095
Duy, P.Q., Berberoglu, M.A., Beattie, C.E., Hall, C.W. (2017) Cellular responses to recurrent pentylenetetrazole-induced seizures in the adult zebrafish brain. Neuroscience. 349:118-127
Dzieciolowska, S., Larroque, A.L., Kranjec, E.A., Drapeau, P., Samarut, E. (2017) The larvicide pyriproxyfen blamed during the Zika virus outbreak does not cause microcephaly in zebrafish embryos. Scientific Reports. 7:40067
Džulová, D., Lawless, D., Pinton, G.G., Renner, N.A., Schorderet, D.F. (2022) Incomplete Recovery of Zebrafish Retina Following Cryoinjury. Cells. 11(8):
Edelmann, K., Glashauser, L., Sprungala, S., Hesl, B., Fritschle, M., Ninkovic, J., Godinho, L., and Chapouton, P. (2013) Increased radial glia quiescence, decreased reactivation upon injury and unaltered neuroblast behavior underlie decreased neurogenesis in the aging zebrafish telencephalon. The Journal of comparative neurology. 521(13):3099-115
El-Nachef, W.N., Bronner, M.E. (2020) De novo enteric neurogenesis in post-embryonic zebrafish from Schwann cell precursors rather than resident cell types. Development (Cambridge, England). 147(13):
Eldred, M.K., Charlton-Perkins, M., Muresan, L., Harris, W.A. (2017) Self-organising aggregates of zebrafish retinal cells for investigating mechanisms of neural lamination. Development (Cambridge, England). 144(6):1097-1106
Ellström, I.D., Spulber, S., Hultin, S., Norlin, N., Ceccatelli, S., Hultling, C., Uhlén, P. (2018) Spinal Cord Injury in Zebrafish Induced by Near-Infrared Femtosecond Laser Pulses. Journal of Neuroscience Methods. 311:259-266
Engerer, P., Petridou, E., Williams, P.R., Suzuki, S.C., Yoshimatsu, T., Portugues, R., Misgeld, T., Godinho, L. (2021) Notch-mediated re-specification of neuronal identity during central nervous system development. Current biology : CB. 31(21):4870-4878.e5
Eve, A.M.J., Smith, J.C. (2017) Knockdown of Laminin gamma-3 (Lamc3) impairs motoneuron guidance in the zebrafish embryo. Wellcome open research. 2:111
Fleisch, V.C., Leighton, P.L., Wang, H., Pillay, L.M., Ritzel, R.G., Bhinder, G., Roy, B., Tierney, K.B., Ali, D.W., Waskiewicz, A.J., and Allison, W.T. (2013) Targeted Mutation of the Gene Encoding Prion Protein in Zebrafish reveals a Conserved Role in Neuron Excitability. Neurobiology of disease. 55:11-25
Folgueira, M., Riva-Mendoza, S., Ferreño-Galmán, N., Castro, A., Bianco, I.H., Anadón, R., Yáñez, J. (2020) Anatomy and Connectivity of the Torus Longitudinalis of the Adult Zebrafish. Frontiers in neural circuits. 14:8
Forbes-Osborne, M.A., Wilson, S.G., and Morris, A.C. (2013) Insulinoma-associated 1a (Insm1a) is required for photoreceptor differentiation in the zebrafish retina. Developmental Biology. 380(2):157-171
Galant, S., Furlan, G., Coolen, M., Dirian, L., Foucher, I., Bally-Cuif, L. (2016) Embryonic origin and lineage hierarchies of the neural progenitor subtypes building the zebrafish adult midbrain. Developmental Biology. 420(1):120-135
Goldshmit, Y., Matteo, R., Sztal, T., Ellett, F., Frisca, F., Moreno, K., Crombie, D., Lieschke, G.J., Currie, P.D., Sabbadini, R.A., and Pebay, A. (2012) Blockage of Lysophosphatidic Acid Signaling Improves Spinal Cord Injury Outcomes. The American journal of pathology. 181(3):978-992
Goldshmit, Y., Sztal, T.E., Jusuf, P.R., Hall, T.E., Nguyen-Chi, M., and Currie, P.D. (2012) Fgf-dependent glial cell bridges facilitate spinal cord regeneration in zebrafish. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32(22):7477-7492
Goldshmit, Y., Tang, J.K.K.Y., Siegel, A.L., Nguyen, P.D., Kaslin, J., Currie, P.D., Jusuf, P.R. (2018) Different Fgfs have distinct roles in regulating neurogenesis after spinal cord injury in zebrafish. Neural Development. 13:24
Gonzalez-Nunez, V., Nocco, V., and Budd, A. (2010) Characterization of drCol 15a1b: A Novel Component of the Stem Cell Niche in the Zebrafish Retina. Stem cells (Dayton, Ohio). 28(8):1399-1411
Gostic, M., Martinelli, A., Tucker, C., Yang, Z., Gasparoli, F., Ewart, J.Y., Dholakia, K., Sillar, K.T., Tello, J.A., Paracchini, S. (2019) The dyslexia susceptibility KIAA0319 gene shows a specific expression pattern during zebrafish development supporting a role beyond neuronal migration. The Journal of comparative neurology. 527(16):2634-2643
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Hall, Z.J., Tropepe, V. (2018) Movement maintains forebrain neurogenesis via peripheral neural feedback in larval zebrafish. eLIFE. 7
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Ito, Y., Tanaka, H., Okamoto, H., and Ohshima, T. (2010) Characterization of neural stem cells and their progeny in the adult zebrafish optic tectum. Developmental Biology. 342(1):26-38
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Matsuoka, R.L., Rossi, A., Stone, O.A., Stainier, D.Y.R. (2017) CNS-resident progenitors direct the vascularization of neighboring tissues. Proceedings of the National Academy of Sciences of the United States of America. 114(38):10137-10142
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Additional Citations (3):

ZFIN Staff (2015) Data Model Change: Sequence Targeting Reagents Removed from Environment. ZFIN Historical Data.

ZIRC and ZFIN Staff (2008) Mutant and Transgenic Line Submissions 2008. ZFIN Direct Data Submission.

ZFIN Staff (2002) Scientific Curation. Manually curated data.