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Resource count: 6,594,866
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Resource Information
Tg(chx10:GFP)
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| Organism |
Zebrafish |
| strain or clone |
Strain |
| Category |
Transgenics |
| Resource name |
Tg(chx10:GFP) |
| Availability |
Available
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| Features |
| Allele : |
nns1 |
| Information : |
Transgenic zebrafish that express EGFP under the control of the alx promoter/enhancer.Method for Generation: BAC, ISceI |
| Publications : |
Kimura Y et al (2006) J. Neurosci. 26(21),5684-97 |
| Taxonomy : |
Siluriformes
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| Reference : |
Seredick S, Hutchinson SA, Van Ryswyk L, Talbot JC, Eisen JS. (2014) Lhx3 and Lhx4 suppress Kolmer-Agduhr interneuron characteristics within zebrafish axial motoneurons. Development 141(20) 3900-9
Van Ryswyk L, Simonson L, Eisen JS. (2014) The role of inab in axon morphology of an identified zebrafish motoneuron. PLoS One 9(2) e88631
Reinoß P, Ciglieri E, Minére M, Bremser S, Klein A, Löhr H, Fuller PM, Büschges A, Kloppenburg P, Fenselau H, Hammerschmidt M. (2020) Hypothalamic Pomc Neurons Innervate the Spinal Cord and Modulate the Excitability of Premotor Circuits. Curr Biol 30(23) 4579-4593.e7
Stil A, Drapeau P. (2016) Neuronal labeling patterns in the spinal cord of adult transgenic Zebrafish. Dev Neurobiol 76(6) 642-60
Engerer P, Petridou E, Williams PR, Suzuki SC, Yoshimatsu T, Portugues R, Misgeld T, Godinho L. (2021) Notch-mediated re-specification of neuronal identity during central nervous system development. Curr Biol 31(21) 4870-4878.e5
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
Chang W, Pedroni A, Bertuzzi M, Kizil C, Simon A, Ampatzis K. (2021) Locomotion dependent neuron-glia interactions control neurogenesis and regeneration in the adult zebrafish spinal cord. Nat Commun 12(1) 4857
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)
Roussel Y, Paradis M, Gaudreau SF, Lindsey BW, Bui TV. (2020) Spatiotemporal Transition in the Role of Synaptic Inhibition to the Tail Beat Rhythm of Developing Larval Zebrafish. eNeuro 7(1)
Evdokia Menelaou, Sandeep Kishore, David L McLean (2022) Mixed synapses reconcile violations of the size principle in zebrafish spinal cord eLife 11
Chun-Xiao Huang, Zhen Wang, Jianwei Cheng, Zhiqiang Zhu, Na N. Guan, Jianren Song (2022) De novo establishment of circuit modules restores locomotion after spinal cord injury in adult zebrafish Cell Reports 41 111535
Saul Bello-Rojas, Martha W Bagnall (2022) Clonally related, Notch-differentiated spinal neurons integrate into distinct circuits eLife 11
Pujala A, Koyama M. (2019) Chronology-based architecture of descending circuits that underlie the development of locomotor repertoire after birth. Elife 8
Kinkhabwala A, Riley M, Koyama M, Monen J, Satou C, Kimura Y, Higashijima S, Fetcho J. (2011) A structural and functional ground plan for neurons in the hindbrain of zebrafish. Proc Natl Acad Sci U S A 108(3) 1164-9
Ampatzis K, Song J, Ausborn J, El Manira A. (2014) Separate microcircuit modules of distinct v2a interneurons and motoneurons control the speed of locomotion. Neuron 83(4) 934-43
Song J, Ampatzis K, Björnfors ER, El Manira A. (2016) Motor neurons control locomotor circuit function retrogradely via gap junctions. Nature 529(7586) 399-402
Valdivia LE, Lamb DB, Horner W, Wierzbicki C, Tafessu A, Williams AM, Gestri G, Krasnow AM, Vleeshouwer-Neumann TS, Givens M, Young RM, Lawrence LM, Stickney HL, Hawkins TA, Schwarz QP, Cavodeassi F, Wilson SW, Cerveny KL. (2016) Antagonism between Gdf6a and retinoic acid pathways controls timing of retinal neurogenesis and growth of the eye in zebrafish. Development 143(7) 1087-98
Song J, Dahlberg E, El Manira A. (2018) V2a interneuron diversity tailors spinal circuit organization to control the vigor of locomotor movements. Nat Commun 9(1) 3370
Rulands S, Iglesias-Gonzalez AB, Boije H. (2018) Deterministic fate assignment of Müller glia cells in the zebrafish retina suggests a clonal backbone during development. Eur J Neurosci 48(12) 3597-3605
Almeida AD, Boije H, Chow RW, He J, Tham J, Suzuki SC, Harris WA. (2014) Spectrum of Fates: a new approach to the study of the developing zebrafish retina. Development 141(9) 1971-80
Weber IP, Ramos AP, Strzyz PJ, Leung LC, Young S, Norden C. (2014) Mitotic position and morphology of committed precursor cells in the zebrafish retina adapt to architectural changes upon tissue maturation. Cell Rep 7(2) 386-397
Sternberg JR, Severi KE, Fidelin K, Gomez J, Ihara H, Alcheikh Y, Hubbard JM, Kawakami K, Suster M, Wyart C. (2016) Optimization of a Neurotoxin to Investigate the Contribution of Excitatory Interneurons to Speed Modulation In Vivo. Curr Biol 26(17) 2319-28
Hilinski WC, Bostrom JR, England SJ, Juárez-Morales JL, de Jager S, Armant O, Legradi J, Strähle U, Link BA, Lewis KE. (2016) Lmx1b is required for the glutamatergic fates of a subset of spinal cord neurons. Neural Dev 11(1) 16
Pedroni A, Ampatzis K. (2019) Large-Scale Analysis of the Diversity and Complexity of the Adult Spinal Cord Neurotransmitter Typology. iScience 19 1189-1201
Menelaou E, McLean DL. (2019) Hierarchical control of locomotion by distinct types of spinal V2a interneurons in zebrafish. Nat Commun 10(1) 4197
Song J, Pallucchi I, Ausborn J, Ampatzis K, Bertuzzi M, Fontanel P, Picton LD, El Manira A. (2020) Multiple Rhythm-Generating Circuits Act in Tandem with Pacemaker Properties to Control the Start and Speed of Locomotion. Neuron 105(6) 1048-1061.e4
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Resouce detail information
(request form)
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http://shigen.nig.ac.jp/zebrafish/strainDetailAction.do?strainId=91
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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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