Visual behavior in zebrafish

Zebrafish

Volumn 3, Issue 2, 2006, Pages 191-201

  Fleisch, Valerie C ^a   Neuhauss, Stephan C F ^a  

^a UNIVERSITY OF ZURICH   (Switzerland)

Author keywords

[No Author keywords available]

Indexed keywords

EID: 33745576885     PISSN: 15458547     EISSN: None     Source Type: Journal    
DOI: 10.1089/zeb.2006.3.191     Document Type: Review

References (67)

1. Benzer S. Genetic dissection of behavior. Sci Am 1973;229:24-37.
2. Quinn WG, Harris WA, Benzer S. Conditioned behavior in Drosophila melanogaster. Proc Natl Acad Sci USA 1974;71:708-712.
3. Dowling JE. The retina: an approachable part of the brain. Cambridge: Belknap Press, 1987.
4. Gahtan E, Tanger P, Baier H. Visual prey capture in larval zebrafish is controlled by identified reticulospinal neurons downstream of the tectum. J Neurosci 2005;25:9294-9303.
5. Allison WT, Haimberger TJ, Hawryshyn CW, Temple SE. Visual pigment composition in zebrafish: Evidence for a rhodopsin-porphyropsin interchange system. Vis Neurosci 2004;21:945-952.
6. Cameron DA. Mapping absorbance spectra, cone fractions, and neuronal mechanisms to photopic spectral sensitivity in the zebrafish. Vis Neurosci 2002;19:365-372.
7. Nawrocki L, BreMiller R, Streisinger G, Kaplan M. Larval and adult visual pigments of the zebrafish, Brachydanio rerio. Vision Res 1985;25:1569-1576.
8. Robinson J, Schmitt EA, Harosi FI, Reece RJ, Dowling JE. Zebrafish ultraviolet visual pigment: absorption spectrum, sequence, and localization. Proc Natl Acad Sci USA 1993;90:6009-6012.
9. Bilotta J, Saszik S, Sutherland SE. Rod contributions to the electroretinogram of the dark-adapted developing zebrafish. Dev Dyn 2001;222:564-570.
10. Branchek T. The development of photoreceptors in the zebrafish, Brachydanio rerio. II. Function. J Comp Neurol 1984;224:116-122.
11. Burrill JD, Easter SS Jr. The first retinal axons and their microenvironment in zebrafish: cryptic pioneers and the pretract. J Neurosci 1995;15:2935-2947.
12. Hu M, Easter SS. Retinal neurogenesis: the formation of the initial central patch of postmitotic cells. Dev Biol 1999;207:309-321.
13. Schmitt EA, Dowling JE. Early eye morphogenesis in the zebrafish, Brachydanio rerio. J Comp Neurol 1994;344:532-542.
14. Schmitt EA, Dowling JE. Early retinal development in the zebrafish, Danio rerio: light and electron microscopic analyses. J Comp Neurol 1999;404:515-536.
15. Biehlmaier O, Neuhauss SC, Kohler K. Synaptic plasticity and functionality at the cone terminal of the developing zebrafish retina. J Neurobiol 2003;56:222-236.
16. Kimmel C, Patterson J, Kimmel R. The development and behavioral characteristics of the startle response in the zebra fish. Develop Psychobiol 1974;7:47-60.
17. Easter SS Jr, Nicola GN. The development of vision in the zebrafish (Danio rerio). Dev Biol 1996;180:646-663.
18. Easter SS Jr, Nicola GN. The development of eye movements in the zebrafish (Danio rerio). Dev Psychobiol 1997;31:267-276.
19. Saszik S, Bilotta J, Givin CM. ERG assessment of zebrafish retinal development. Vis Neurosci 1999;16:881-888.
20. Baier H. Zebrafish on the move: towards a behavior-genetic analysis of vertebrate vision. Curr Opin Neurobiol 2000;10:451-455.
21. Neuhauss SC, Biehlmaier O, Seeliger MW, Das T, Kohler K, Harris WA, et al. Genetic disorders of vision revealed by a behavioral screen of 400 essential loci in zebrafish. J Neurosci 1999;19:8603-8615.
22. Orger MB, Gahtan E, Muto A, Page-McCaw P, Smear MC, Baier H. Behavioral screening assays in zebrafish. Methods Cell Biol 2004;77:53-68.
23. Larison KD, Bremiller R. Early onset of phenotype and cell patterning in the embryonic zebrafish retina. Development 1990;109:567-576.
24. Raymond PA, Barthel LK, Curran GA. Developmental patterning of rod and cone photoreceptors in embryonic zebrafish. J Comp Neurol 1995;359:537-550.
25. Robinson J, Schmitt EA, Dowling JE. Temporal and spatial patterns of opsin gene expression in zebrafish (Danio rerio). Vis Neurosci 1995;12:895-906.
26. Bilotta J. Effects of abnormal lighting on the development of zebrafish visual behavior. Behav Brain Res 2000;116:81-87.
27. Saszik S, Bilotta J. Effects of abnormal light-rearing conditions on retinal physiology in larvae zebrafish. Invest Ophthalmol Vis Sci 1999;40:3026-3031.
28. Dixon LJ, McDowell AL, Houchins JD, Bilotta J. Effects of restricted spectral rearing on the development of zebrafish retinal physiology. Doc Ophthalmol 2004;109:17-33.
29. Cahill GM. Circadian regulation of melatonin production in cultured zebrafish pineal and retina. Brain Res 1996;708:177-181.
30. Rajendran RR, Van Niel EE, Stenkamp DL, Cunningham LL, Raymond PA, Gonzalez-Fernandez F. Zebrafish interphotoreceptor retinoid-binding protein: differential circadian expression among cone subtypes. J Exp Biol 1996;199:2775-2787.
31. Li L, Dowling JE. Zebrafish visual sensitivity is regulated by a circadian clock. Vis Neurosci 1998;15:851-857.
32. Ren JQ, Li L. A circadian clock regulates the process of ERG b- and d-wave dominance transition in dark-adapted zebrafish. Vision Res 2004;44:2147-2152.
33. Clark DT. Visual Responses in the Developing Zebrafish (Brachydanio rerio). Universtiy of Oregon Press, Eugene, 1981.
34. Brockerhoff SE, Dowling JE, Hurley JB. Zebrafish retinal mutants. Vision Res 1998;38:1335-1339.
35. Brockerhoff SE, Hurley JB, Janssen-Bienhold U, Neuhauss SC, Driever W, Dowling JE. A behavioral screen for isolating zebrafish mutants with visual system defects. Proc Natl Acad Sci USA 1995;92:10545-10549.
36. Gnuegge L, Schmid S, Neuhauss SC. Analysis of the activity-deprived zebrafish mutant macho reveals an essential requirement of neuronal activity for the development of a fine-grained visuotopic map. J Neurosci 2001;21:3542-3548.
37. Livingstone M, Hubel D. Segregation of form, color, movement, and depth: anatomy, physiology, and perception. Science 1988;240:740-749.
38. Muto A, Orger MB, Wehman AM, Smeart MC, Kay JN, Page-McCaw PS, et al. Forward genetic analysis of visual behavior in zebrafish. PLoS Genet 2005;1:e66.
39. Balm PH, Groneveld D. The melanin-concentrating hormone system in fish. Ann NY Acad Sci 1998;839:205-209.
40. Bahadori R, Huber M, Rinner O, Seeliger MW, Geiges-Rudolph S, Geisler R, et al. Retinal function and morphology in two zebrafish models of oculo-renal syndromes. Eur J Neurosci 2003;18:1377-1386.
41. Neuhauss SC, Seeliger MW, Schepp CP, Biehlmaier O. Retinal defects in the zebrafish bleached mutant. Doc Ophthalmol 2003;107:71-78.
42. Neuhauss SC. Behavioral genetic approaches to visual system development and function in zebrafish. J Neurobiol 2003;54:148-160.
43. Brockerhoff SE, Hurley JB, Niemi GA, Dowling JE. A new form of inherited red-blindness identified in zebrafish. J Neurosci 1997;17:4236-4242.
44. Beck JC, Gilland E, Tank DW, Baker R. Quantifying the ontogeny of optokinetic and vestibuloocular behaviors in zebrafish, medaka, and goldfish. J Neurophysiol 2004;92:3546-3561.
45. Rinner O, Rick JM, Neuhauss SC. Contrast sensitivity, spatial and temporal tuning of the larval zebrafish optokinetic response. Invest Ophthalmol Vis Sci 2005;46:137-142.
46. Marsh E, Baker R. Normal and adapted visuooculomotor reflexes in goldfish. J Neurophysiol 1997;77:1099-1118.
47. Orger MB, Baier H. Channeling of red and green cone inputs to the zebrafish optomotor response. Vis Neurosci 2005;22:275-281.
48. Maaswinkel H, Li L. Spatio-temporal frequency characteristics of the optomotor response in zebrafish. Vision Res 2003;43:21-30.
49. Krauss A, Neumeyer C. Wavelength dependence of the optomotor response in zebrafish (Danio rerio). Vision Res 2003;43:1273-1282.
50. Schaerer S, Neumeyer C. Motion detection in goldfish investigated with the optomotor response is "color blind." Vision Res 1996;36:4025-4034.
51. Li L, Dowling JE. A dominant form of inherited retinal degeneration caused by a non-photoreceptor cell-specific mutation. Proc Natl Acad Sci USA 1997;94:11645-11650.
52. Li L, Dowling JE. Disruption of the olfactoretinal centrifugal pathway may relate to the visual system defect in night blindness b mutant zebrafish. J Neurosci 2000;20:1883-1892.
53. Maaswinkel H, Ren JQ, Li L. Slow-progressing photoreceptor cell degeneration in night blindness c mutant zebrafish. J Neurocytol 2003;32:1107-1116.
54. Maaswinkel H, Riesbeck LE, Riley ME, Carr Al, Mullin JP, Nakamoto AT, et al. Behavioral screening for nightblindness mutants in zebrafish reveals three new loci that cause dominant photoreceptor cell degeneration. Mech Ageing Dev 2005;126:1079-1089.
55. Yokoyama S. Molecular evolution of color vision in vertebrates. Gene 2002;300:69-78.
56. Ramachandran VS, Rao VM, Vidyasagar TR. Apparent movement with subjective contours. Vision Res 1973;13:1399-1401.
57. Cavanagh P, Mather G. Motion: the long and short of it. Spat Vis 1989;4:103-129.
58. Chubb C, Sperling G. Drift-balanced random stimuli: a general basis for studying non-Fourier motion perception. J Opt Soc Am A 1988;5:1986-2007.
59. Orger MB, Smear MC, Anstis SM, Baier H. Perception of Fourier and non-Fourier motion by larval zebrafish. Nat Neurosci 2000;3:1128-1133.
60. Wandell BA, Poirson AB, Newsome WT, Baseler HA, Boynton GM, Huk A, et al. Color signals in human motion-selective cortex. Neuron 1999;24:901-909.
61. Page-McCaw PS, Chung SC, Muto A, Roeser T, Staub W, Finger-Baier KC, et al. Retinal network adaptation to bright light requires tyrosinase. Nat Neurosci 2004;7:1329-1336.
62. Arshavsky VY. Rhodopsin phosphorylation: from terminating single photon responses to photoreceptor dark adaptation. Trends Neurosci 2002;25:124-126.
63. Rinner O, Makhankov YV, Biehlmaier O, Neuhauss SC. Knockdown of cone-specific kinase GRK7 in larval zebrafish leads to impaired cone response recovery and delayed dark adaptation. Neuron 2005;47:231-242.
64. Wienholds E, Plasterk RH. Target-selected gene inactivation in zebrafish. Methods Cell Biol 2004;77:69-90.
65. Wienholds E, van Eeden F, Kosters M, Mudde J, Plasterk RH, Cuppen E. Efficient target-selected mutagenesis in zebrafish. Genome Res 2003;13:2700-2707.
66. Kos R, Tucker RP, Hall R, Duong TD, Erickson CA. Methods for introducing morpholinos into the chicken embryo. Dev Dyn 2003;226:470-477.
67. Thummel R, Bai S, Sarras MP Jr, Song P, McDermott S, Brewer J, et al. Inhibition of zebrafish fin regeneration using in vivo electroporation of morpholinos against fgfr1 and msxb. Dev Dyn 2006; 235:336-346.