• References

    DANIOVISION

Here is a selection of recent papers of zebrafish research with DanioVision. Of course there are many more. If you feel your paper should be on this list, please let us know at marcom@noldus.nl!

 

Neurobiology and behavior, strain differences, light-dark conditions or acoustic/vibrational stimuli

Bos, R. van den; Mes, W.; Galligani, P.; Heil, A.; Zethof, J.; Flik, G.; Gorissen, M. (2017). Further characterisation of differences between TL and AB zebrafish (Danio rerio): Gene expression, physiology and behaviour at day 5 of the larval stagePLoS ONE12 (4), e0175420.

 

Toxicology, high-throughput drug screening

Cornet, C.; Calzolari, S.; Miñana-Prieto, R.; Dyballa, S.; Doornmalen, E. van; Rutjes, H.; Savy, T.; D’Amico, D.; Terriente, J. (2017). ZeGlobalTox: An Innovative Approach to Address Organ Drug Toxicity Using ZebrafishInternational Journal of Molecular Sciences18, 864.

 

Translational research, neurobiology, locomotor behavior

Correia, A.D.; Soares, R.S.; Rahimi, K.; Sousa, S.; Outeiro, T.F.; Afonso, N.; Willemsen, R.; Linde, H. van der. (2017). Green Fluorescent Protein Labeling of Dopaminergic Neurons in Zebrafish for the Study of Parkinson’s DiseaseJournal of Microbiology & Experimentation4(1), 00101.

 

Translational research, neurobiology, seizure behavior

Griffin, A.; Hamling, K.R.; Knupp, K.; Hong, S.G.; Lee, L.P.; Baraban, S.C. (2017). Clemizole and modulators of serotonin signalling suppress seizures in Dravet syndromeBrain140(3), 669-683.

 

Translational research, neurobiology, larval activity

Grone, B.P.; Qu, T.; Baraban, S.C. (2017). Behavioral Comorbidities and Drug Treatments in a Zebrafish scn1lab Model of Dravet SyndromeeNeuro10, 1523.

 

Translational research, zebrafish larvae locomotor activity

Cronin, A.; Grealy, M. (2017). Neuroprotective and Neuro-restorative Effects of Minocycline and Rasagiline in a Zebrafish 6-Hydroxydopamine Model of Parkinson’s DiseaseNeuroscience367, 34-46.

 

Neurobiology, larval movement during light-dark cycles

Herbert, A.L.; Fu, M.-M.; Drerup, C.M.; Gray, R.S.; Harty, B.L.; Ackerman, S.D.; O’Reilly-Pol, T.; Johnson, S.L.; Nechiporuk, A.V.; Barres, B.A.; Monk, K.R. (2017). Dynein/dynactin is necessary for anterograde transport of Mbp mRNA in oligodendrocytes and for myelination in vivoPNAS114(43), E9153-E9162.

 

Toxicology, acute developmental toxicity, larval visual motor response during white light routine

Horzmann, K.A.; Perre, C. de; Lee, L.S.; Whelton, A.J.; Freeman, J.L. (2017). Comparative analytical and toxicological assessment of methylcyclohexanemethanol (MCHM) mixtures associated with the Elk River chemical spillChemosphere188, 599-607.

 

Translational research, neurobiology, larval locomotive response to visual stimuli

Kim, O.-H.; Cho, H.-J.; Han, E.; Hong, T.I.; Ariyasiri, K.; Choi, J.H.; Hwang, K.-S.; Jeong, Y.-M.; Yang, S.-Y.; Yu, K.; Park, D.-S.; Oh, H.-W.; Davis, E.E.; Schwartz, C.E.; Lee, J.-S.; Kim, H.-G.; Kim, C.-H. (2017). Zebrafish knockout of Down syndrome gene, DYRK1A, shows social impairments relevant to autismMolecular Autism8, 50.

 

Toxicology, zebrafish larvae locomotion

Liang, X.; Souders, C.L.; Zhang, J.; Martyniuk, C.J. (2017). Tributyltin induces premature hatching and reduces locomotor activity in zebrafish (Danio rerio) embryos/larvae at environmentally relevant levelsChemosphere189, 498-506.

Godfrey, A.; Hooser, B.; Abdelmoneim, A.; Horzmann, K.A.; Freemanc, J.L.; Sepúlveda, M.S. (2017). Thyroid disrupting effects of halogenated and next generation chemicals on the swim bladder development of zebrafishAquatic Toxicology193, 228-235.

 

Toxicology, zebrafish larvae locomotor activity

Capriello, T.; Consiglio Grimaldi, M.; Cofone, R.; D'Aniello, S.; Ferrandino, I. (2019). Effects of aluminium and cadmium on hatching and swimming ability in developing zebrafish. Chemosphere, 222 (2019), 243-249.

Wang, X.H.; Souders, C.L.; Zhao, Y.H.; Martyniuk, C.J. (2018). Paraquat affects mitochondrial bioenergetics, dopamine system expression, and locomotor activity in zebrafish (Danio rerio)Chemosphere191, 106-117.

Wang, X.H.; Souders, C.L.; Zhao, Y.H.; Martyniuk, C.J. (2018). Mitochondrial bioenergetics and locomotor activity are altered in zebrafish (Danio rerio) after exposure to the bipyridylium herbicide diquatToxicology Letters283, 13-20.

Han, J.; Ji, C.; Guo, Y.; Yan, R.; Hong, T.; Dou, Y.; An, Y. Tao, S.; Qin, F.; Nie, J.; Ji, C.; Wang, H.; Tong, J.; Xiao, W.; Zhang, J. (2017). Mechanisms underlying melatonin-mediated prevention of fenvalerate-induced behavioral and oxidative toxicity in zebrafishJournal of Toxicology and Environmental Health, Part A80(23-24), 1331-1341.

Pitt, J.A.; Kozal, J.S.; Jayasundara, N.; Massarsky, A.; Trevisan, R.; Geitner, N.; Wiesner, M.; Levin, E.D.; Di Giulio, R.T. (2017). Uptake, tissue distribution, and toxicity of polystyrene nanoparticles in developing zebrafish (Danio rerio)Aquatic Toxicology, doi: 10.1016/j.aquatox.2017.11.017

 

Neurobiology, translation research, larvae activity

McCammon, J.M.; Blaker-Lee, A.; Chen, X.; Sive, H. (2017). The 16p11.2 homologs fam57ba and doc2a generate certain brain and body phenotypesHuman Molecular Genetics26(19), 3699-3712.

 

Neurobiology, translation research, infrared light response

Hartmann, S., Vogt, R., Kunze, J., Rauschert, A., Kuhnert, K.-D., Wanzenböck, J., Lamatsch, D. K., Witte, K. (2018). Zebrafish larvae show negative phototaxis to near-infrared light. PLoS ONE13(11): e207264. DOI:10.1371/journal.one.0207264.

 

Neurobiology, translational research, larvae locomotor assay, activity

Moradi-Afrapoli, F.; Ebrahii, S.N.; Smiesko, M.; Hamburger, M. (2017). HPLC-Based activity profiling for GABAA receptor modulators in extracts: validation of an approach utilizing a larval zebrafish locomotor assayJournal of Natural Products80, 1548-1557.

 

Neurobiology, sleep experiments, activity and immobility in larvae

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 zebrafishActa Physiologica, doi: 10.1111/apha.1298.

 

Toxicology, larvae locomotor activity in response to exposure

Tzima, E.; Serifi, I.; Tsikari, I.; Alzualde, A.; Leonardos, I.; Papamarcaki, T. (2017). Transcriptional and behavioral responses of zebrafish larvae to microcystin-LR exposureInternational Journal of Molecular Sciences18, 365.

 

Behavioral research, activity avoiding learning, baseline activity in larvae

Yang, P.; Kajiwara, R.; Tonoki, A.; Itoh, M. (2017). Successive and discrete spaced conditioning in active avoidance learning in young and aged zebrafishNeuroscience Research, doi:j.neures.2017.10.005.

 

Toxicology, dark-light alternations, movement and path shape of larvae

Zhang, J.-L.; Souders, C.L.; Denslow, N.D.; Martyniuk, C.J. (2017). Quercetin, a natural product supplement, impairs mitochondrial bioenergetics and locomotor behavior in larval zebrafish (Danio rerio)Toxicology and Applied Pharmacology327, 30-38.