ZFIN Publication List

ZFIN ID: ZDB-ATB-081009-5

CITATIONS (89 total)

Antibody Name: Ab1-glul

Ahmed, M., Kojima, Y., Masai, I. (2022) Strip1 regulates retinal ganglion cell survival by suppressing Jun-mediated apoptosis to promote retinal neural circuit formation. eLIFE. 11:

Albadri, S., Naso, F., Thauvin, M., Gauron, C., Parolin, C., Duroure, K., Vougny, J., Fiori, J., Boga, C., Vriz, S., Calonghi, N., Del Bene, F. (2019) Redox Signaling via Lipid Peroxidation Regulates Retinal Progenitor Cell Differentiation. Developmental Cell. 50(1):73-89.e6

Ali, Z., Zang, J., Lagali, N., Schmitner, N., Salvenmoser, W., Mukwaya, A., Neuhauss, S.C.F., Jensen, L.D., Kimmel, R.A. (2020) Photoreceptor Degeneration Accompanies Vascular Changes in a Zebrafish Model of Diabetic Retinopathy. Investigative ophthalmology & visual science. 61:43

Alunni, A., Krecsmarik, M., Bosco, A., Galant, S., Pan, L., Moens, C.B., and Bally-Cuif, L. (2013) Notch3 signaling gates cell cycle entry and limits neural stem cell amplification in the adult pallium. Development (Cambridge, England). 140(16):3335-47

Babu, S., Takeuchi, Y., Masai, I. (2022) Banp regulates DNA damage response and chromosome segregation during the cell cycle in zebrafish retina. eLIFE. 11

Bibliowicz, J., and Gross, J.M. (2009) Expanded progenitor populations, vitreo-retinal abnormalities, and Muller glial reactivity in the zebrafish leprechaun/patched2 retina. BMC Developmental Biology. 9:52

Boije, H., Ring, H., López-Gallardo, M., Prada, C., and Hallböök, F. (2010) Pax2 is expressed in a subpopulation of Müller cells in the central chick retina. Developmental Dynamics : an official publication of the American Association of Anatomists. 239(6):1858-1866

Chhabria, K., Vouros, A., Gray, C., MacDonald, R.B., Jiang, Z., Wilkinson, R.N., Plant, K., Vasilaki, E., Howarth, C., Chico, T.J.A. (2019) Sodium nitroprusside prevents the detrimental effects of glucose on the neurovascular unit and behaviour in zebrafish. Disease models & mechanisms. 12(9):

Collery, R.F., and Link, B.A. (2011) Dynamic smad-mediated BMP signaling revealed through transgenic zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 240(3):712-722

Conedera, F.M., Pousa, A.M.Q., Mercader, N., Tschopp, M., Enzmann, V. (2019) Retinal microglia signaling affects Müller cell behavior in the zebrafish following laser injury induction. Glia. 67(6):1150-1166

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

Conner, C., Ackerman, K.M., Lahne, M., Hobgood, J.S., Hyde, D.R. (2014) Repressing Notch Signaling and Expressing TNFα Are Sufficient to Mimic Retinal Regeneration by Inducing Müller Glial Proliferation to Generate Committed Progenitor Cells. The Journal of neuroscience : the official journal of the Society for Neuroscience. 34(43):14403-19

de Souza, B.R., Romano-Silva, M.A., and Tropepe, V. (2011) Dopamine d2 receptor activity modulates akt signaling and alters GABAergic neuron development and motor behavior in zebrafish larvae. The Journal of neuroscience : the official journal of the Society for Neuroscience. 31(14):5512-5525

Del Bene, F., Wehman, A.M., Link, B.A., and Baier, H. (2008) Regulation of neurogenesis by interkinetic nuclear migration through an apical-basal notch gradient. Cell. 134(6):1055-1065

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

Dirian, L., Galant, S., Coolen, M., Chen, W., Bedu, S., Houart, C., Bally-Cuif, L., Foucher, I. (2014) Spatial Regionalization and Heterochrony in the Formation of Adult Pallial Neural Stem Cells. Developmental Cell. 30(2):123-36

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

Duncan, R.N., Xie, Y., McPherson, A.D., Taibi, A.V., Bonkowsky, J.L., Douglass, A.D., Dorsky, R.I. (2016) Hypothalamic radial glia function as self-renewing neural progenitors in the absence of Wnt/ß-catenin signaling. Development (Cambridge, England). 143(1):45-53

Elsaeidi, F., Macpherson, P., Mills, E.A., Jui, J., Flannery, J.G., Goldman, D. (2018) Notch suppression collaborates with Ascl1 and Lin28 to unleash a regenerative response in fish retina, but not in mice. The Journal of neuroscience : the official journal of the Society for Neuroscience. 38(9):2246-2261

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

Fausett, B.V., and Goldman, D. (2006) A role for alpha1 tubulin-expressing Muller glia in regeneration of the injured zebrafish retina. The Journal of neuroscience : the official journal of the Society for Neuroscience. 26(23):6303-6313

Fraser, B., Duval, M.G., Wang, H., and Allison, W.T. (2013) Regeneration of cone photoreceptors when cell ablation is primarily restricted to a particular cone subtype. PLoS One. 8(1):e55410

Furlan, G., Cuccioli, V., Vuillemin, N., Dirian, L., Muntasell, A.J., Coolen, M., Dray, N., Bedu, S., Houart, C., Beaurepaire, E., Foucher, I., Bally-Cuif, L. (2017) Life-Long Neurogenic Activity of Individual Neural Stem Cells and Continuous Growth Establish an Outside-In Architecture in the Teleost Pallium. Current biology : CB. 27(21):3288-3301.e3

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

Gorsuch, R.A., Lahne, M., Yarka, C.E., Petravick, M.E., Li, J., Hyde, D.R. (2017) Sox2 regulates Müller glia reprogramming and proliferation in the regenerating zebrafish retina via Lin28 and Ascl1a. Experimental Eye Research. 161:174-192

Gramage, E., D'Cruz, T., Taylor, S., Thummel, R., Hitchcock, P.F. (2015) Midkine-a Protein Localization in the Developing and Adult Retina of the Zebrafish and Its Function During Photoreceptor Regeneration. PLoS One. 10:e0121789

Grupp, L., Wolburg, H., and Mack, A.F. (2010) Astroglial structures in the zebrafish brain. The Journal of comparative neurology. 518(21):4277-4287

Halabi, R., Watterston, C., Hehr, C.L., Mori-Kreiner, R., Childs, S.J., McFarlane, S. (2021) Semaphorin 3fa Controls Ocular Vascularization From the Embryo Through to the Adult. Investigative ophthalmology & visual science. 62:21

Hernández-Núñez, I., Vivero-Lopez, M., Quelle-Regaldie, A., DeGrip, W.J., Sánchez, L., Concheiro, A., Alvarez-Lorenzo, C., Candal, E., Barreiro-Iglesias, A. (2022) Embryonic nutritional hyperglycemia decreases cell proliferation in the zebrafish retina. Histochemistry and cell biology. 158(4):401-409

Hochmann, S., Kaslin, J., Hans, S., Weber, A., Machate, A., Geffarth, M., Funk, R.H., and Brand, M. (2012) Fgf Signaling is Required for Photoreceptor Maintenance in the Adult Zebrafish Retina. PLoS One. 7(1):e30365

Hotz, A.L., Jamali, A., Rieser, N.N., Niklaus, S., Aydin, E., Myren-Svelstad, S., Lalla, L., Jurisch-Yaksi, N., Yaksi, E., Neuhauss, S.C.F. (2021) Loss of glutamate transporter eaat2a leads to aberrant neuronal excitability, recurrent epileptic seizures, and basal hypoactivity. Glia. 70(1):196-214

Inoue, D., and Wittbrodt, J. (2011) One for all-a highly efficient and versatile method for fluorescent immunostaining in fish embryos. PLoS One. 6(5):e19713

Iribarne, M., Hyde, D.R., Masai, I. (2019) TNFα Induces Müller Glia to Transition From Non-proliferative Gliosis to a Regenerative Response in Mutant Zebrafish Presenting Chronic Photoreceptor Degeneration. Frontiers in cell and developmental biology. 7:296

Jin, M., Zhang, H., Xu, B., Li, Y., Qin, H., Yu, S., He, J. (2022) Jag2b-Notch3/1b-mediated neuron-to-glia crosstalk controls retinal gliogenesis. EMBO reports. 23(10):e54922

Jusuf, P.R., and Harris, W.A. (2009) Ptf1a is expressed transiently in all types of amacrine cells in the embryonic zebrafish retina. Neural Development. 4:34

Kassen, S.C., Thummel, R., Burket, C.T., Campochiaro, L.A., Harding, M.J., and Hyde, D.R. (2008) The Tg(ccnb1:EGFP) transgenic zebrafish line labels proliferating cells during retinal development and regeneration. Molecular Vision. 14:951-963

Kassen, S.C., Thummel, R., Campochiaro, L.A., Harding, M.J., Bennett, N.A., and Hyde, D.R. (2009) CNTF induces photoreceptor neuroprotection and Müller glial cell proliferation through two different signaling pathways in the adult zebrafish retina. Experimental Eye Research. 88(6):1051-1064

Katz, S., Cussigh, D., Urbán, N., Blomfield, I., Guillemot, F., Bally-Cuif, L., Coolen, M. (2016) A Nuclear Role for miR-9 and Argonaute Proteins in Balancing Quiescent and Activated Neural Stem Cell States. Cell Reports. 17:1383-1398

Kay, J.N., Finger-Baier, K.C., Roeser, T., Staub, W., and Baier, H. (2001) Retinal ganglion cell genesis requires lakritz, a zebrafish atonal homolog. Neuron. 30(3):725-736

Kroehne, V., Freudenreich, D., Hans, S., Kaslin, J., and Brand, M. (2011) Regeneration of the adult zebrafish brain from neurogenic radial glia-type progenitors. Development (Cambridge, England). 138(22):4831-4841

Lee, H.C., Lu, P.N., Huang, H.L., Chu, C., Li, H.P., Tsai, H.J. (2014) Zebrafish transgenic line huORFZ is an effective living bioindicator for detecting environmental toxicants. PLoS One. 9:e90160

Lee, M., Wan, J., Goldman, D. (2020) Tgfb3 collaborates with PP2A and Notch signaling pathways to inhibit retina regeneration. eLIFE. 9:

Lindsey, B.W., Aitken, G.E., Tang, J.K., Khabooshan, M., Douek, A.M., Vandestadt, C., Kaslin, J. (2019) Midbrain tectal stem cells display diverse regenerative capacities in zebrafish. Scientific Reports. 9:4420

Lindsey, B.W., Darabie, A., and Tropepe, V. (2012) The cellular composition of neurogenic periventricular zones in the adult zebrafish forebrain. The Journal of comparative neurology. 520(10):2275-2316

Lindsey, B.W., Di Donato, S., Kaslin, J., Tropepe, V. (2014) Sensory-specific modulation of adult neurogenesis in sensory structures is associated with the type of stem cell present in the neurogenic niche of the zebrafish brain. The European journal of neuroscience. 40(11):3591-607

Lourenço, R., Brandão, A.S., Borbinha, J., Gorgulho, R., Jacinto, A. (2021) Yap Regulates Müller Glia Reprogramming in Damaged Zebrafish Retinas. Frontiers in cell and developmental biology. 9:667796

MacDonald, R.B., Kashikar, N.D., Lagnado, L., Harris, W.A. (2017) A Novel Tool to Measure Extracellular Glutamate in the Zebrafish Nervous System In Vivo. Zebrafish. 14(3):284-286

MacDonald, R.B., Randlett, O., Oswald, J., Yoshimatsu, T., Franze, K., Harris, W.A. (2015) Müller glia provide essential tensile strength to the developing retina. The Journal of cell biology. 210:1075-83

Martins, R.R., Zamzam, M., Tracey-White, D., Moosajee, M., Thummel, R., Henriques, C.M., MacDonald, R.B. (2022) Müller Glia maintain their regenerative potential despite degeneration in the aged zebrafish retina. Aging Cell. 21(4):e13597

Maurer, C.M., Schönthaler, H.B., Mueller, K.P., and Neuhauss, S.C. (2010) Distinct retinal deficits in a zebrafish pyruvate dehydrogenase-deficient mutant. The Journal of neuroscience : the official journal of the Society for Neuroscience. 30(36):11962-11972

Mitra, S., Devi, S., Lee, M.S., Jui, J., Sahu, A., Goldman, D. (2022) Vegf signaling between Müller glia and vascular endothelial cells is regulated by immune cells and stimulates retina regeneration. Proceedings of the National Academy of Sciences of the United States of America. 119:e2211690119e2211690119

Montgomery, J.E., Parsons, M.J., and Hyde, D.R. (2010) A novel model of retinal ablation demonstrates that the extent of rod cell death regulates the origin of the regenerated zebrafish rod photoreceptors. The Journal of comparative neurology. 518(6):800-814

Muto, A., Taylor, M.R., Suzawa, M., Korenbrot, J.I., and Baier, H. (2013) Glucocorticoid receptor activity regulates light adaptation in the zebrafish retina. Frontiers in neural circuits. 7:145

Naville, M., Ishibashi, M., Ferg, M., Bengani, H., Rinkwitz, S., Krecsmarik, M., Hawkins, T.A., Wilson, S.W., Manning, E., Chilamakuri, C.S., Wilson, D.I., Louis, A., Lucy Raymond, F., Rastegar, S., Strähle, U., Lenhard, B., Bally-Cuif, L., van Heyningen, V., FitzPatrick, D.R., Becker, T.S., Roest Crollius, H. (2015) Long-range evolutionary constraints reveal cis-regulatory interactions on the human X chromosome. Nature communications. 6:6904

Nelson, S.M., Frey, R.A., Wardwell, S.L., and Stenkamp, D.L. (2008) The developmental sequence of gene expression within the rod photoreceptor lineage in embryonic zebrafish. Developmental Dynamics : an official publication of the American Association of Anatomists. 237(10):2903-2917

Nelson, S.M., Park, L., and Stenkamp, D.L. (2009) Retinal homeobox 1 is required for retinal neurogenesis and photoreceptor differentiation in embryonic zebrafish. Developmental Biology. 328(1):24-39

Niklaus, S., Cadetti, L., Vom Berg-Maurer, C.M., Lehnherr, A., Hotz, A.L., Forster, I.C., Gesemann, M., Neuhauss, S.C.F. (2017) Shaping of Signal Transmission at the Photoreceptor Synapse by EAAT2 Glutamate Transporters. eNeuro. 4(3)

Ouyang, J., Sun, W., Xiao, X., Li, S., Jia, X., Zhou, L., Wang, P., Zhang, Q. (2019) CPSF1 mutations are associated with early-onset high myopia and involved in retinal ganglion cell axon projection. Human molecular genetics. 28(12):1959-1970

Paridaen, J.T., Janson, E., Utami, K.H., Pereboom, T.C., Essers, P.B., van Rooijen, C., Zivkovic, D., and Macinnes, A.W. (2011) The nucleolar GTP-binding proteins Gnl2 and nucleostemin are required for retinal neurogenesis in developing zebrafish. Developmental Biology. 355(2):286-301

Paulsen, U.J., Tiedemann, K., and Mack, A.F. (2010) Dendritic differentiation in the periphery of the growing zebrafish retina. Experimental Eye Research. 90(4):514-520

Phillips, J.B., Blanco-Sanchez, B., Lentz, J.J., Tallafuss, A., Khanobdee, K., Sampath, S., Jacobs, Z.G., Han, P.F., Mishra, M., Williams, D.S., Keats, B.J., Washbourne, P., and Westerfield, M. (2011) Harmonin (Ush1c) is required in zebrafish Muller glial cells for photoreceptor synaptic development and function. Disease models & mechanisms. 4(6):786-800

Phillips, J.B., Västinsalo, H., Wegner, J., Clément, A., Sankila, E.M., and Westerfield, M. (2013) The cone-dominant retina and the inner ear of zebrafish express the ortholog of CLRN1, the causative gene of human Usher syndrome type 3A. Gene expression patterns : GEP. 13(8):473-81

Powell, C., Elsaeidi, F., and Goldman, D. (2012) Injury-Dependent Muller Glia and Ganglion Cell Reprogramming during Tissue Regeneration Requires Apobec2a and Apobec2b. The Journal of neuroscience : the official journal of the Society for Neuroscience. 32(3):1096-1109

Prykhozhij, S.V. (2010) In the Absence of Sonic Hedgehog, p53 Induces Apoptosis and Inhibits Retinal Cell Proliferation, Cell-Cycle Exit and Differentiation in Zebrafish. PLoS One. 5(10):e13549

Ramachandran, R., Fausett, B.V., and Goldman, D. (2010) Ascl1a regulates Müller glia dedifferentiation and retinal regeneration through a Lin-28-dependent, let-7 microRNA signalling pathway. Nature cell biology. 12(11):1101-1107

Ramachandran, R., Reifler, A., Parent, J.M., and Goldman, D. (2010) Conditional gene expression and lineage tracing of tuba1a expressing cells during zebrafish development and retina regeneration. The Journal of comparative neurology. 518(20):4196-4212

Ramachandran, R., Zhao, X.F., and Goldman, D. (2011) Ascl1a/Dkk/ beta -catenin signaling pathway is necessary and glycogen synthase kinase-3 beta inhibition is sufficient for zebrafish retina regeneration. Proceedings of the National Academy of Sciences of the United States of America. 108(38):15858-63

Randlett, O., MacDonald, R.B., Yoshimatsu, T., Almeida, A.D., Suzuki, S.C., Wong, R.O., Harris, W.A. (2013) Cellular requirements for building a retinal neuropil. Cell Reports. 3:282-90

Ranski, A.H., Kramer, A.C., Morgan, G.W., Perez, J.L., Thummel, R. (2018) Characterization of retinal regeneration in adult zebrafish following multiple rounds of phototoxic lesion. PeerJ. 6:e5646

Rao, M.B., Didiano, D., Patton, J.G. (2017) Neurotransmitter-Regulated Regeneration in the Zebrafish Retina. Stem Cell Reports. 8(4):831-842

Ricatti, M.J., Alfie, L.D., Lavoie, E.G., Sévigny, J., Schwarzbaum, P.J., and Faillace, M.P. (2009) Immunocytochemical localization of NTPDases1 and 2 in the neural retina of mouse and zebrafish. Synapse (New York, N.Y.). 63(4):291-307

Sahu, A., Devi, S., Jui, J., Goldman, D. (2021) Notch signaling via Hey1 and Id2b regulates Müller glia's regenerative response to retinal injury. Glia. 69(12):2882-2898

Santhanam, A., Shihabeddin, E., Atkinson, J.A., Nguyen, D., Lin, Y.P., O'Brien, J. (2020) A Zebrafish Model of Retinitis Pigmentosa Shows Continuous Degeneration and Regeneration of Rod Photoreceptors. Cells. 9(10):

Scheib, J., Byrd-Jacobs, C. (2020) Zebrafish Astroglial Morphology in the Olfactory Bulb Is Altered With Repetitive Peripheral Damage. Frontiers in Neuroanatomy. 14:4

Schlegel, D.K., Ramkumar, S., von Lintig, J., Neuhauss, S.C. (2021) Disturbed retinoid metabolism upon loss of rlbp1a impairs cone function and leads to subretinal lipid deposits and photoreceptor degeneration in the zebrafish retina. eLIFE. 10:

Serrano, R.J., Lee, C., Douek, A.M., Kaslin, J., Bryson-Richardson, R.J., Sztal, T.E. (2021) Novel pre-clinical model for CDKL5 Deficiency Disorder. Disease models & mechanisms. 15(3):

Takahashi, Y., Moiseyev, G., Chen, Y., Nikolaeva, O., and Ma, J.X. (2011) An Alternative Isomerohydrolase in the Retinal Müller Cells of a Cone-Dominant Species. The FEBS journal. 278(16):2913-26

Than-Trong, E., Kiani, B., Dray, N., Ortica, S., Simons, B., Rulands, S., Alunni, A., Bally-Cuif, L. (2020) Lineage hierarchies and stochasticity ensure the long-term maintenance of adult neural stem cells. Science advances. 6:eaaz5424

Than-Trong, E., Ortica-Gatti, S., Mella, S., Nepal, C., Alunni, A., Bally-Cuif, L. (2018) Neural stem cell quiescence and stemness are molecularly distinct outputs of the Notch3 signaling cascade in the vertebrate adult brain. Development (Cambridge, England). 145(10)

Thomas, J.L., Vihtelic, T.S., Dendekker, A.D., Willer, G., Luo, X., Murphy, T.R., Gregg, R.G., Hyde, D.R., and Thummel, R. (2011) The loss of vacuolar protein sorting 11 (vps11) causes retinal pathogenesis in a vertebrate model of syndromic albinism. Investigative ophthalmology & visual science. 52(6):3119-28

Thummel, R., Kassen, S.C., Enright, J.M., Nelson, C.M., Montgomery, J.E., and Hyde, D.R. (2008) Characterization of Müller glia and neuronal progenitors during adult zebrafish retinal regeneration. Experimental Eye Research. 87(5):433-444

Vitorino, M., Jusuf, P.R., Maurus, D., Yukiko, Y., Higashijima, S.I., and Harris, W.A. (2009) Vsx2 in the zebrafish retina: restricted lineages through derepression. Neural Development. 4:14

Wan, J., Zhao, X.F., Vojtek, A., Goldman, D. (2014) Retinal Injury, Growth Factors, and Cytokines Converge on β-Catenin and pStat3 Signaling to Stimulate Retina Regeneration. Cell Reports. 9(1):285-97

Xiao, X., Sun, W., Ouyang, J., Li, S., Jia, X., Tan, Z., Hejtmancik, J.F., Zhang, Q. (2019) Novel truncation mutations in MYRF cause autosomal dominant high hyperopia mapped to 11p12-q13.3. Human genetics. 138(10):1077-1090

Zhang, G., Lübke, L., Chen, F., Beil, T., Takamiya, M., Diotel, N., Strähle, U., Rastegar, S. (2021) Neuron-Radial Glial Cell Communication via BMP/Id1 Signaling Is Key to Long-Term Maintenance of the Regenerative Capacity of the Adult Zebrafish Telencephalon. Cells. 10(10):

Zhang, L., Cho, J., Ptak, D., and Leung, Y.F. (2013) The Role of egr1 in Early Zebrafish Retinogenesis. PLoS One. 8(2):e56108

Zhang, Y., Yang, Y., Trujillo, C., Zhong, W., and Leung, Y.F. (2012) The Expression of irx7 in the Inner Nuclear Layer of Zebrafish Retina Is Essential for a Proper Retinal Development and Lamination. PLoS One. 7(4):e36145

Additional Citations (1):

ZFIN Staff (2008) Antibody information from supplier. Manually curated data.