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Resource count: 6,594,866
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Resource Information
Tol-056
Organism |
Zebrafish |
strain or clone |
Strain |
Category |
Transgenics |
Resource name |
Tol-056 |
Availability |
Available
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Features |
Information : |
Phenotype: An enhancer trap transgenic zebrafish that express GFP in the Mauthner cells and a small number of spinal neurons.Features:In the hindbrain, GFP is express in a pair of the Mauthner cells (Fig. 1A). In the spinal cord, GFP is expressed in CoLo neurons (arrows) and KA neurons (arrowheads) (Fig. 1B). The strain is useful for investigating morphology of these neurons. |
Publications : |
Satou C et al (2009) J. Neurosci. 29(21),6780-93 |
Taxonomy : |
Siluriformes
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Reference : |
Pallucchi I, Bertuzzi M, Michel JC, Miller AC, El Manira A. (2022) Transformation of an early-established motor circuit during maturation in zebrafish. Cell Rep 39(2) 110654
Yang LQ, Chen M, Ren DL, Hu B. (2020) Dual Oxidase Mutant Retards Mauthner-Cell Axon Regeneration at an Early Stage via Modulating Mitochondrial Dynamics in Zebrafish. Neurosci Bull 36(12) 1500-1512
Chen X, Yin W, Chen S, Zhang W, Li H, Kuang H, Zhou M, Teng Y, Zhang J, Shen G, Liang D, Li Z, Hu B, Wu L. (2021) Loss of PIGK function causes severe infantile encephalopathy and extensive neuronal apoptosis. Hum Genet 140(5) 791-803
Hecker A, Anger P, Braaker PN, Schulze W, Schuster S. (2020) High-resolution mapping of injury-site dependent functional recovery in a single axon in zebrafish. Commun Biol 3(1) 307
Hecker A, Schulze W, Oster J, Richter DO, Schuster S. (2020) Removing a single neuron in a vertebrate brain forever abolishes an essential behavior. Proc Natl Acad Sci U S A 117(6) 3254-3260
Meserve JH, Nelson JC, Marsden KC, Hsu J, Echeverry FA, Jain RA, Wolman MA, Pereda AE, Granato M. (2021) A forward genetic screen identifies Dolk as a regulator of startle magnitude through the potassium channel subunit Kv1.1. PLoS Genet 17(6) e1008943
Yao C, Vanderpool KG, Delfiner M, Eddy V, Lucaci AG, Soto-Riveros C, Yasumura T, Rash JE, Pereda AE. (2014) Electrical synaptic transmission in developing zebrafish: properties and molecular composition of gap junctions at a central auditory synapse. J Neurophysiol 112(9) 2102-13
Lasseigne AM, Echeverry FA, Ijaz S, Michel JC, Martin EA, Marsh AJ, Trujillo E, Marsden KC, Pereda AE, Miller AC. (2021) Electrical synaptic transmission requires a postsynaptic scaffolding protein. Elife 10
Wu MY, Carbo-Tano M, Mirat O, Lejeune FX, Roussel J, Quan FB, Fidelin K, Wyart C. (2021) Spinal sensory neurons project onto the hindbrain to stabilize posture and enhance locomotor speed. Curr Biol 31(15) 3315-3329.e5
Xu L, Guan NN, Huang CX, Hua Y, Song J. (2021) A neuronal circuit that generates the temporal motor sequence for the defensive response in zebrafish larvae. Curr Biol 31(15) 3343-3357.e4
Guan NN, Xu L, Zhang T, Huang CX, Wang Z, Dahlberg E, Wang H, Wang F, Pallucchi I, Hua Y, El Manira A, Song J. (2021) A specialized spinal circuit for command amplification and directionality during escape behavior. Proc Natl Acad Sci U S A 118(42)
Chen M, Huang RC, Yang LQ, Ren DL, Hu B. (2019) <i>In vivo</i> imaging of evoked calcium responses indicates the intrinsic axonal regenerative capacity of zebrafish. FASEB J 33(6) 7721-7733
Fabio A. Echeverry, Sundas Ijaz, Alberto E. Pereda (2022) Recording Synaptic Transmission from Auditory Mixed Synapses on the Mauthner Cells of Developing Zebrafish eneuro 9 ENEURO.0021-22.2022
Da-Long Ren, Bing Hu, Guo-Jian Shao, Xin-Liang Wang, Mei-Li Wei (2023) DUSP2 deletion with CRISPR/Cas9 promotes Mauthner cell axonal regeneration at the early stage of zebrafish Neural Regeneration Research 18 577
Wang Z, Wang X, Shi L, Cai Y, Hu B. (2022) Wolfram syndrome 1b mutation suppresses Mauthner-cell axon regeneration via ER stress signal pathway. Acta Neuropathol Commun 10(1) 184
Michel JC, Lasseigne AM, Marsh AJ, Miller AC. (2022) The <i>disconnect2</i> mutation disrupts the <i>tjp1b</i> gene that is required for electrical synapse formation. MicroPubl Biol 2022
Schirmer E, Ritschar S, Ochs M, Laforsch C, Schuster S, Römpp A. (2022) MALDI mass spectrometry imaging workflow for the aquatic model organisms Danio rerio and Daphnia magna. Sci Rep 12(1) 7288
Hubbard JM, Böhm UL, Prendergast A, Tseng PB, Newman M, Stokes C, Wyart C. (2016) Intraspinal Sensory Neurons Provide Powerful Inhibition to Motor Circuits Ensuring Postural Control during Locomotion. Curr Biol 26(21) 2841-2853
Liu YC, Hale ME. (2017) Local Spinal Cord Circuits and Bilateral Mauthner Cell Activity Function Together to Drive Alternative Startle Behaviors. Curr Biol 27(5) 697-704
Hu BB, Chen M, Huang RC, Huang YB, Xu Y, Yin W, Li L, Hu B. (2018) In vivo imaging of Mauthner axon regeneration, remyelination and synapses re-establishment after laser axotomy in zebrafish larvae. Exp Neurol 300 67-73
Satou C, Kimura Y, Kohashi T, Horikawa K, Takeda H, Oda Y, Higashijima S. (2009) Functional role of a specialized class of spinal commissural inhibitory neurons during fast escapes in zebrafish. J Neurosci 29(21) 6780-93
Xu Y, Chen M, Hu B, Huang R, Hu B. (2017) <i>In vivo</i> Imaging of Mitochondrial Transport in Single-Axon Regeneration of Zebrafish Mauthner Cells. Front Cell Neurosci 11 4
Miller AC, Whitebirch AC, Shah AN, Marsden KC, Granato M, O''Brien J, Moens CB. (2017) A genetic basis for molecular asymmetry at vertebrate electrical synapses. Elife 6
Watanabe T, Shimazaki T, Oda Y. (2017) Coordinated Expression of Two Types of Low-Threshold K
Shimazaki T, Tanimoto M, Oda Y, Higashijima SI. (2019) Behavioral Role of the Reciprocal Inhibition between a Pair of Mauthner Cells during Fast Escapes in Zebrafish. J Neurosci 39(7) 1182-1194
Marsden KC, Jain RA, Wolman MA, Echeverry FA, Nelson JC, Hayer KE, Miltenberg B, Pereda AE, Granato M. (2018) A Cyfip2-Dependent Excitatory Interneuron Pathway Establishes the Innate Startle Threshold. Cell Rep 23(3) 878-887
Fan Y, Yin W, Hu B, Kline AD, Zhang VW, Liang D, Sun Y, Wang L, Tang S, Powis Z, Li L, Yan H, Shi Z, Yang X, Chen Y, Wang J, Jiang Y, Tan H, Gu X, Wu L, Yu Y. (2018) De Novo Mutations of CCNK Cause a Syndromic Neurodevelopmental Disorder with Distinctive Facial Dysmorphism. Am J Hum Genet 103(3) 448-455
Yang LQ, Chen M, Zhang JL, Ren DL, Hu B. (2018) Hypoxia Delays Oligodendrocyte Progenitor Cell Migration and Myelin Formation by Suppressing Bmp2b Signaling in Larval Zebrafish. Front Cell Neurosci 12 348
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Resouce detail information
(request form)
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http://shigen.nig.ac.jp/zebrafish/strainDetailAction.do?strainId=157
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Organization |
Developmental Gene Regulation. RIKEN Brain Science Institute |
Person in charge |
OKAMOTO Hitoshi |
Postal Code |
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Address |
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Phone |
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FAX |
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E-mail |
hitoshi.okamoto@riken.jp
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URL |
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Other information |
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