ZFIN ID: ZDB-ATB-081017-8
CITATIONS (49 total)
Antibody Name: Ab1-th
   
Cansiz, D., Unal, I., Beler, M., Ustundag, U.V., Ak, E., Emekli-Alturfan, E., Alturfan, A.A. (2023) The Effect of Acetic Acid-Induced Pain in Parkinson's Disease Model in Zebrafish. Neurotoxicology. 99:14-23
Yao, Y., Baronio, D., Chen, Y.C., Jin, C., Panula, P. (2023) The Roles of Histamine Receptor 1 (hrh1) in Neurotransmitter System Regulation, Behavior, and Neurogenesis in Zebrafish. Molecular neurobiology. 60(11):6660-6675
Baronio, D., Chen, Y.C., Decker, A.R., Enckell, L., Fernández-López, B., Semenova, S., Puttonen, H.A.J., Cornell, R.A., Panula, P. (2021) Vesicular monoamine transporter 2 (SLC18A2) regulates monoamine turnover and brain development in zebrafish. Acta physiologica (Oxford, England). 234(1):e13725
Baronio, D., Chen, Y.C., Panula, P. (2021) Abnormal brain development of monoamine oxidase mutant zebrafish and impaired social interaction of heterozygous fish. Disease models & mechanisms. 15(3):
Brown, S.J., Boussaad, I., Jarazo, J., Fitzgerald, J.C., Antony, P., Keatinge, M., Blechman, J., Schwamborn, J.C., Krüger, R., Placzek, M., Bandmann, O. (2021) PINK1 deficiency impairs adult neurogenesis of dopaminergic neurons. Scientific Reports. 11:6617
Kim, G.J., Mo, H., Liu, H., Wu, Z., Chen, S., Zheng, J., Zhao, X., Nucum, D., Shortland, J., Peng, L., Elepano, M., Tang, B., Olson, S., Paras, N., Li, H., Renslo, A.R., Arkin, M.R., Huang, B., Lu, B., Sirota, M., Guo, S. (2021) A zebrafish screen reveals Renin-angiotensin system inhibitors as neuroprotective via mitochondrial restoration in dopamine neurons. eLIFE. 10:
Larbalestier, H., Keatinge, M., Watson, L., White, E., Gowda, S., Wei, W., Koler, K., Semenova, S.A., Elkin, A.M., Rimmer, N., Sweeney, S.T., Mazzolini, J., Sieger, D., Hide, W., McDearmid, J., Panula, P., MacDonald, R.B., Bandmann, O. (2021) GCH1 deficiency activates brain innate immune response and impairs tyrosine hydroxylase homeostasis. The Journal of neuroscience : the official journal of the Society for Neuroscience. 42(4):702-716
Suzzi, S., Ahrendt, R., Hans, S., Semenova, S.A., Chekuru, A., Wirsching, P., Kroehne, V., Bilican, S., Sayed, S., Winkler, S., Spieß, S., Machate, A., Kaslin, J., Panula, P., Brand, M. (2021) Deletion of lrrk2 causes early developmental abnormalities and age-dependent increase of monoamine catabolism in the zebrafish brain. PLoS Genetics. 17:e1009794
Yu, D., Zhang, P., Li, J., Liu, T., Zhang, Y., Wang, Q., Zhang, J., Lu, X., Fan, X. (2021) Neuroprotective effects of Ginkgo biloba dropping pills in Parkinson's disease. Journal of pharmaceutical analysis. 11:220-231
Chen, Y.C., Baronio, D., Semenova, S., Abdurakhmanova, S., Panula, P. (2020) Cerebral Dopamine Neurotrophic Factor regulates multiple neuronal subtypes and behavior. The Journal of neuroscience : the official journal of the Society for Neuroscience. 40(32):6146-6164
Hughes, G.L., Lones, M.A., Bedder, M., Currie, P.D., Smith, S.L., Pownall, M.E. (2020) Machine learning discriminates a movement disorder in a zebrafish model of Parkinson's disease. Disease models & mechanisms. 13(10):
Porter, B.A., Mueller, T. (2020) The Zebrafish Amygdaloid Complex - Functional Ground Plan, Molecular Delineation, and Everted Topology. Frontiers in neuroscience. 14:608
Edson, A.J., Hushagen, H.A., Frøyset, A.K., Elda, I., Khan, E.A., Di Stefano, A., Fladmark, K.E. (2019) Dysregulation in the Brain Protein Profile of Zebrafish Lacking the Parkinson's Disease-Related Protein DJ-1. Molecular neurobiology. 56(12):8306-8322
Princely Abudu, Y., Pankiv, S., Mathai, B.J., Håkon Lystad, A., Bindesbøll, C., Brenne, H.B., Yoke Wui Ng, M., Thiede, B., Yamamoto, A., Mutugi Nthiga, T., Lamark, T., Esguerra, C.V., Johansen, T., Simonsen, A. (2019) NIPSNAP1 and NIPSNAP2 Act as "Eat Me" Signals for Mitophagy. Developmental Cell. 49(4):509-525.e12
Sahu, M.P., Pazos-Boubeta, Y., Pajanoja, C., Rozov, S., Panula, P., Castrén, E. (2019) Neurotrophin receptor Ntrk2b function in the maintenance of dopamine and serotonin neurons in zebrafish. Scientific Reports. 9:2036
Serpa, B.J., Bullard, J.D., Mendiola, V.C., Smith, C.J., Stewart, B., Ganser, L.R. (2019) D-Amphetamine Exposure Differentially Disrupts Signaling Across Ontogeny in the Zebrafish. Bioelectricity. 1:85-104
Vaz, R.L., Sousa, S., Chapela, D., van der Linde, H.C., Willemsen, R., Correia, A.D., Outeiro, T.F., Afonso, N.D. (2019) Identification of antiparkinsonian drugs in the 6-hydroxydopamine zebrafish model. Pharmacology, biochemistry, and behavior. 189:172828
Wee, C.L., Song, E.Y., Johnson, R.E., Ailani, D., Randlett, O., Kim, J.Y., Nikitchenko, M., Bahl, A., Yang, C.T., Ahrens, M.B., Kawakami, K., Engert, F., Kunes, S. (2019) A bidirectional network for appetite control in larval zebrafish. eLIFE. 8:
Delfino-Machín, M., Madelaine, R., Busolin, G., Nikaido, M., Colanesi, S., Camargo-Sosa, K., Law, E.W., Toppo, S., Blader, P., Tiso, N., Kelsh, R.N. (2017) Sox10 contributes to the balance of fate choice in dorsal root ganglion progenitors. PLoS One. 12:e0172947
Lovett-Barron, M., Andalman, A.S., Allen, W.E., Vesuna, S., Kauvar, I., Burns, V.M., Deisseroth, K. (2017) Ancestral Circuits for the Coordinated Modulation of Brain State. Cell. 171(6):1411-1423.e17
Puttonen, H.A.J., Sundvik, M., Semenova, S., Shirai, Y., Chen, Y.C., Panula, P. (2017) Knock-out of histamine receptor H3 alters adaptation to sudden darkness and monoamine levels in the zebrafish. Acta physiologica (Oxford, England). 222(3)
Stoyek, M.R., Jonz, M.G., Smith, F.M., Croll, R.P. (2017) Distribution and chronotropic effects of serotonin in the zebrafish heart. Autonomic neuroscience : basic & clinical. 206:43-50
Chen, Y.C., Semenova, S., Rozov, S., Sundvik, M., Bonkowsky, J.L., Panula, P. (2016) A novel developmental role for dopaminergic signaling to specify hypothalamic neurotransmitter identity. The Journal of biological chemistry. 291(42):21880-21892
Glasauer, S.M., Wäger, R., Gesemann, M., Neuhauss, S.C. (2016) mglur6b:EGFP transgenic zebrafish suggest novel functions of metabotropic glutamate signaling in retina and other brain regions. The Journal of comparative neurology. 524(12):2363-78
Muthu, V., Eachus, H., Ellis, P., Brown, S., Placzek, M. (2016) Rx3 and Shh direct anisotropic growth and specification in the zebrafish tuberal/anterior hypothalamus. Development (Cambridge, England). 143(14):2651-63
Stoyek, M.R., Quinn, T.A., Croll, R.P., Smith, F.M. (2016) Zebrafish heart as a model to study the integrative autonomic control of pacemaker function. American journal of physiology. Heart and circulatory physiology. 311(3):H676-88
Stoyek, M.R., Croll, R.P., Smith, F.M. (2015) Intrinsic and extrinsic innervation of the heart in zebrafish (Danio rerio). The Journal of comparative neurology. 523(11):1683-700
Jannat, M., Fatimah, R., Kishida, M. (2014) Nitrate (NO3(-)) and nitrite (NO2(-)) are endocrine disruptors to downregulate expression of tyrosine hydroxylase and motor behavior through conversion to nitric oxide in early development of zebrafish. Biochemical and Biophysical Research Communications. 452(3):608-13
Prieto, M.J., del Rio Zabala, N.E., Marotta, C.H., Carreño Gutierrez, H., Arévalo Arévalo, R., Chiaramoni, N.S., del Valle Alonso, S. (2014) Optimization and in vivo toxicity evaluation of G4.5 PAMAM dendrimer-risperidone complexes. PLoS One. 9:e90393
Robertson, G.N., Croll, R.P., Smith, F.M. (2014) The structure of the caudal wall of the zebrafish (Danio rerio) swim bladder: Evidence of localized lamellar body secretion and a proximate neural plexus. Journal of morphology. 275(8):933-48
Semenova, S.A., Chen, Y.C., Zhao, X., Rauvala, H., Panula, P. (2014) The tyrosine hydroxylase 2 (TH2) system in zebrafish brain and stress activation of hypothalamic cells. Histochemistry and cell biology. 142(6):619-33
Skaggs, K., Goldman, D., Parent, J.M. (2014) Excitotoxic brain injury in adult zebrafish stimulates neurogenesis and long-distance neuronal integration. Glia. 62(12):2061-79
Puttonen, H.A., Sundvik, M., Rozov, S., Chen, Y.C., and Panula, P. (2013) Acute ethanol treatment upregulates th1, th2, and hdc in larval zebrafish in stable networks. Frontiers in neural circuits. 7:102
Sundvik, M., Chen, Y.C., and Panula, P. (2013) Presenilin1 Regulates Histamine Neuron Development and Behavior in Zebrafish, Danio rerio. The Journal of neuroscience : the official journal of the Society for Neuroscience. 33(4):1589-1597
Glover, G., Mueller, K.P., Söllner, C., Neuhauss, S.C., and Nicolson, T. (2012) The Usher gene cadherin 23 is expressed in the zebrafish brain and a subset of retinal amacrine cells. Molecular Vision. 18:2309-2322
Podlasz, P., Sallinen, V., Chen, Y.C., Kudo, H., Fedorowska, N., and Panula, P. (2012) Galanin gene expression and effects of its knock-down on the development of the nervous system in larval zebrafish. The Journal of comparative neurology. 520(17):3846-3862
Sundvik, M., and Panula, P. (2012) The organization of the histaminergic system in adult zebrafish (Danio rerio) brain: neuron number, location and co-transmitters. The Journal of comparative neurology. 520(17):3827-3845
Paskin, T.R., Iqbal, T.R., and Byrd-Jacobs, C.A. (2011) Olfactory bulb recovery following reversible deafferentation with repeated detergent application in the adult zebrafish. Neuroscience. 196:276-84
Sundvik, M., Kudo, H., Toivonen, P., Rozov, S., Chen, Y.C., and Panula, P. (2011) The histaminergic system regulates wakefulness and orexin/hypocretin neuron development via histamine receptor H1 in zebrafish. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. 25(12):4338-47
Zhao, X., Kuja-Panula, J., Rouhiainen, A., Chen, Y.C., Panula, P., and Rauvala, H. (2011) High mobility group box-1 (HMGB1; amphoterin) is required for zebrafish brain development. The Journal of biological chemistry. 286(26):23200-13
Dumbarton, T.C., Stoyek, M., Croll, R.P., and Smith, F.M. (2010) Adrenergic control of swimbladder deflation in the zebrafish (Danio rerio). The Journal of experimental biology. 213(Pt 14):2536-2546
Sallinen, V., Torkko, V., Sundvik, M., Reenilä, I., Khrustalyov, D., Kaslin, J., and Panula, P. (2009) MPTP and MPP+ target specific aminergic cell populations in larval zebrafish. Journal of neurochemistry. 108(3):719-731
Wang, X., Lee, J.E., and Dorsky, R.I. (2009) Identification of wnt-responsive cells in the zebrafish hypothalamus. Zebrafish. 6(1):49-58
Anichtchik, O., Diekmann, H., Fleming, A., Roach, A., Goldsmith, P., and Rubinsztein, D.C. (2008) Loss of PINK1 function affects development and results in neurodegeneration in zebrafish. The Journal of neuroscience : the official journal of the Society for Neuroscience. 28(33):8199-8207
Olsson, C., Holmberg, A., and Holmgren, S. (2008) Development of enteric and vagal innervation of the zebrafish (Danio rerio) gut. The Journal of comparative neurology. 508(5):756-770
Finney, J.L., Robertson, G.N., McGee, C.A., Smith, F.M., and Croll, R.P. (2006) Structure and autonomic innervation of the swim bladder in the zebrafish (Danio rerio). The Journal of comparative neurology. 495(5):587-606
Anichtchik, O.V., Kaslin, J., Peitsaro, N., Scheinin, M., and Panula, P. (2004) Neurochemical and behavioural changes in zebrafish Danio rerio after systemic administration of 6-hydroxydopamine and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine. Journal of neurochemistry. 88(2):443-453

Additional Citations (2):
ZFIN Staff (2021) Community comments transferred from the ZFIN Antibody wiki. Semi-automated Curation.
ZFIN Staff (2008) Antibody information from supplier. Manually curated data.
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