Research References

This is a selection of publications which have acknowledged the use of DataView in their analysis. It indicates the sorts of research areas in which DataView has proved useful.

(If a particular publication does not appear in this list which you think should, please let me know.)

Parkinson, R.H., Zhang, S. & Gray, J.R. Neonicotinoid and sulfoximine pesticides differentially impair insect escape behavior and motion detection. PNAS. 117, 5510-1115 (2020).

Caron, D.P. Rimniceanu, M. Scibelli, A.E. & Trimmer, B.A. Nociceptive neurons respond to multimodal stimuli in Manduca sexta. J. Exp. Biol. 223, 1-9.

Nakata, T., Doi, A., Uta, D., Yoshimura, M. & Shin M-C. Excessive exercise induces cardiac arrhythmia in a young fibromyalgia mouse model. PLoSONE 15(9):e0239473 (2020).

Bharwani, A. West, C. Champagne-Jorgensen,K., Neufeld, K-A. M., Ruberto, J. Kunze, W.A., Bienenstock, J. & Forsythe, P. The vagus nerve is necessary for the rapid and widespread neuronal activation in the brain following oral administration of psychoactive bacteria . Neuropharmacology 170, 1-11 (2020).

Araki, A.S., Brazil, R.P., Hamilton, J.G.C. & Vigoder, F.M.. Characterization of copulatory courtship song in the Old World sand fly species Phlebotomus argentipes. Sci Rep 10, 5116 (2020).

Lambert, F.M., Bacqué-Cazenave, J., Le Seach, A., Arama, J., Courtand, G., Tagliabue M., Eskiizmirliler, S., Straka, H. & Beraneck, M. Stabilization of gaze during early Xenopus development by swimming-related utricular signals. Current Biology 30, 746-753.e4 (2020).

Barrios, J.P., Wang, W-C., England, R., Reifenberg, E. & Douglass, A.D. Hypothalamic dopamine neurons control sensorimotor behavior by modulating brainstem premotor nuclei in Zebrafish. Current Biology Oct 2020 (in press).

Uemura, Y., Kato, K., Kawakami, K., Kimura, Y., Oda , Y. & Higashijima., S-I. Neuronal Circuits That Control Rhythmic Pectoral Fin Movements in Zebrafish. J. Neurosci. 40 (35) 6678-6690 (2020)

Nascimento, F., Broadhead, M.J., Tetringa, E., Tsape, E., Zagoraiou, L. & Miles, G.B. Synaptic mechanisms underlying modulation of locomotor-related motoneuron output by premotor cholinergic interneurons. eLife 9, e54170 (2020)

West, C. L., et al. Squalamine Restores the Function of the Enteric Nervous System in Mouse Models of Parkinson’s Disease. J. Parkinson's Disease .1 Jan. 2020 : 1 – 15.

Broadhead, M.J & Miles, G.B. Bi-directional communication between neurons and astrocytes modulates spinal motor circuits. Front. Cell. Neurosci. 14, 1-14 (2020).

Valle, C., Rodriguez-Fernandez, M & Eblen-Zajjur, A. Spikes and Nets (S&N): A new fast, parallel computing, point process software for multineuronal dischargeand connectivity analysis. Neural Process. Lett. 52, 385–40 (2020).

Leuwer, M., Haeseler, G., Lambert, J. & Belelli, D. Methods of using propofol derivatives for analgesia. United States Patent Application 20160095823 (2016).

Currie, S.P., Doherty, G.H. & Sillar, K.T. Deep-brain photoreception links luminance detection to motor output in Xenopus frog tadpoles. PNAS 113, 6053-6058 (2016).

Currie, S.P., Combes, D., Scott, N.W., Simmers, J. & Sillar, K.T. A behaviourally-related developmental switch in nitrergic modulation of locomotor rhythmogenesis in larval Xenopus tadpoles. J. Neurophysiol., 115, 1416-1457 (2016)

Devlin, A.-C. et al. Human iPSC-derived motoneurons harbouring TARDBP or C9ORF72 ALS mutations are dysfunctional despite maintaining viability. Nat. Commun. 6, 1–12 (2015).

Couzin-Fuchs, E., Gal, O., Holmes, P. & Ayali, A. Differential control of temporal and spatial aspects of cockroach leg coordination. J. Insect Physiol. 79, 96–104 (2015).

Metallo, C. & Trimmer, B. A. Orientation-Dependent Changes in Single Motor Neuron Activity during Adaptive Soft-Bodied Locomotion. Brain. Behav. Evol. 85, 47–62 (2015).

Li, W.-C. Selective Gating of Neuronal Activity by Intrinsic Properties in Distinct Motor Rhythms. J. Neurosci. 35, 9799–9810 (2015).

Chung, B., Bacqué-Cazenave, J., Cofer, D. W., Cattaert, D. & Edwards, D. H. The effect of sensory feedback on crayfish posture and locomotion: I. Experimental analysis of closing the loop. J. Neurophysiol. 113, 1763–1771 (2015).

Bacqué-Cazenave, J., Chung, B., Cofer, D. W., Cattaert, D. & Edwards, D. H. The effect of sensory feedback on crayfish posture and locomotion: II. Neuromechanical simulation of closing the loop. J. Neurophysiol. 113, 1772–1783 (2015).

Metallo C, Trimmer B A. Silk coating as a novel delivery system and reversible adhesive for stiffening and shaping flexible probes. J Biol Methods 2015;2(1):e13. doi: 10.14440/jbm.2015.41

Neville, M. C. et al., (2014) Male-Specific Fruitless Isoforms Target Neurodevelopmental Genes to Specify a Sexually Dimorphic Nervous System. Current Biology 24, 229-241.

Röper, K.M., Scheumann,M., Wiechert, A.B., Nathan, S., Goossens, B., Owren, M.J. & Zimmermann, E. (2014) Vocal acoustics in the endangered proboscis monkey (Nasalis larvatus) Am J Primatol. 76, 192-201.

Li, W-C., Merrison-Hort, R., Zhang, H-Y, & Borisyuk, R. (2014) The Generation of Antiphase Oscillations and Synchrony by a Rebound-Based Vertebrate Central Pattern Generator. J. Neurosci. 34, 6065-6077.

Kishore, S., Bagnall, M. W. & McLean, D. L. Systematic Shifts in the Balance of Excitation and Inhibition Coordinate the Activity of Axial Motor Pools at Different Speeds of Locomotion. J. Neurosci. 34, 14046–14054 (2014).

Horn, C.C. et al., 2013. Why can’t rodents vomit? A comparative behavioral, anatomical, and physiological study. M. Covasa, ed. PloS one, 8(4), p.e60537.

Kessler, S., Vlimant, M. & Guerin, P.M., 2013. The sugar meal of the African malaria mosquito Anopheles gambiae and how deterrent compounds interfere with it: a behavioural and neurophysiological study. J. Exp. Biol., 216(Pt 7), pp.1292–306.

Moult, P.R., Cottrell, G.A. & Li, W.-C., 2013. Fast silencing reveals a lost role for reciprocal inhibition in locomotion. Neuron, 77(1), pp.129–40.

Iwagaki, N. and Miles, G.B.(2011) Activation of group I metabotropic glutamate receptors modulates locomotor-related motoneuron output in mice. J. Neurophysiol. 105, 2108-2120.

Chuan-Cheng Chen, Masayoshi Watada, Hitoshi Miyake, Takehiro K. Katoh, Zheng Sun, Yi-Feng Li, Michael G. Ritchie and Shuo-Yang Wen 2013. Courtship Patterns in the Drosophila montium Species Subgroup: Repeated Loss of Precopulatory Courtship? Zoological Science 30(12):1056-1062.

Kawai, T., Abe, H and Oka, Y. (2012) Dopaminergic neuromodulation of synaptic transmission between mitral and granule cells in the teleost olfactory bulb. J Neurophysiol 107, 1313–1324

A. A. Korobkin, O. A. Vasilieva, A. I. Emanuilov, M. B. Korzina, and P. M. Maslyukov (2012) Age-related characteristics of the background electrical
activity of neurons in the cranial cervical ganglion in rats. Neurosci. Behav. Physiol., 42, 84-88.

Li, W.-C. & Moult, P.R., 2012. The control of locomotor frequency by excitation and inhibition. J. Neurosci. 32(18), 6220–6230.

Liao, J.C. and Haehnel, M. (2012) Physiology of afferent neurons in larval zebrafish provides a functional framework for lateral line somatotopy. J Neurophysiol. in press.

Menelaou, E. & McLean, D.L., 2012. A gradient in endogenous rhythmicity and oscillatory drive matches recruitment order in an axial motor pool. J. Neurosci., 32(32), 10925–10939.

Rand, D., Knebel, D. & Ayali, A., 2012. The effect of octopamine on the locust stomatogastric nervous system. Frontiers in physiology, 3, p.288.

Ribak, G. et al., 2012. Role of wing pronation in evasive steering of locusts. Journal of comparative physiology. A, Neuroethology, sensory, neural, and behavioral physiology, 198(7), pp.541–55.

Witts, E.C., Panetta, K.M. & Miles, G.B., 2012. Glial-derived adenosine modulates spinal motor networks in mice. Journal of neurophysiology, 107(7), pp.1925–34.

Nikaido, Y. and Nakashima, T. (2011) Different patterns of neuronal activities in the infralimbic and prelimbic cortices and behavioral expression in response to two affective odors, 2,5-dihydro-2,4,5-trimethylthiazoline and a mixture of cis-3-hexenol and trans-2-hexenal, in the freely moving rat. Behav. Brain Res. 218, 218-227.

Rodgers, E. W., Fu, J. J. Krenz, W.-D. C. and Baro1, D.J. (2011) Tonic nanomolar dopamine enables an activity-dependent phase recovery mechanism that persistently alters the maximal conductance of the hyperpolarization-activated current in a rhythmically active neuron. J. Neurosci. 31(45):16387–16397

Zhang, H-Y., Issberner, J. and Sillar, K.T. (2011) Development of a spinal locomotor rheostat. PNAS Early Edition

Csercsa,R. Dombova´ri, B., Fabo´, D., Wittner, L., Eross, L., Entz, L., So´lyom, A., Ra´sonyi, G., Szucs, A., Kelemen, A., Jakus, R., Juhos, V., Grand, L., Magony, A., Hala´sz, P., Freund, T.F., Maglo´czky, Z., Cash, S.S., Papp, L., Karmos, G., Halgren, E. and Ulbert, I. (2010) Laminar analysis of slow wave activity in humans. Brain doi:10.1093/brain/awq169

Kanda, S., Nishikawa, K., Karigo, T., Okubo, K., Isomae, S., Abe, H., Kobayashi, D. and Oka, Y. (2010) Regular Pacemaker Activity Characterizes Gonadotropin-Releasing Hormone 2 Neurons Recorded from Green Fluorescent Protein-Transgenic Medaka. Endocrinology 151, 695-701.

Li, W-C., Roberts, A. and Soffe, S.R. (2010) Specific Brainstem Neurons Switch Each Other into Pacemaker Mode to Drive Movement by Activating NMDA Receptors. J. Neurosci., 30, 16609-16620.

Simon, M.A., Fusillo, S.J., Colman, K. and Trimmer, B.A. (2010) Motor patterns associated with crawling in a soft-bodied arthropod. J. exp. Biol. 213, 2303-2309.

Ayali, A. Gelman, S. Tytell, E. D. and Cohen, A. H. (2009) Lateral-line activity during undulatory body motions suggests a feedback link in closed-loop control of sea lamprey swimming. Can. J. Zool. 87, 671–683

Griethuijsen, L.I. van, Trimmer, B.A. (2009). Kinematics of horizontal and vertical caterpillar crawling. J. exp. Biol. 212, 1455-1462.

Tschuluun, N., Hall, W. M. and Mulloney, B. (2009) State-changes in the swimmeret system: a neural circuit that drives locomotion. J. exp. Biol. 212, 3605-3611.

Liao, J.C. and Fetcho, J.R. (2008). Shared versus specialized glycinergic spinal interneurons in axial motor circuits of larval Zebrafish. J. Neurosci. 28, 12982-12992.

McLean, D.L. Masino, M.A., Koh, I.Y.Y., Lindquist, W.B. and Fetcho, J.R. (2008). Continuous shifts in the active set of spinal interneurons during changes in locomotor speed. Nature Neuroscience 11, 1419 - 1429.

Shao, X.M., Tan,W., Xiu, J., Puskar, N., Fonck, C., Lester, H.A. and Feldman, J.L. (2008). {alpha}4* nicotinic receptors in preBötzinger complex mediate cholinergic/nicotinic modulation of respiratory rhythm. J. Neurosci. 28, 519 –528.

Spitzer, N., Cymbalyuk, G., Zhang, H., Edwards, D.H. and Baro, D.J. (2008) Serotonin transduction cascades mediate variable changes in pyloric network cycle frequency in response to the same modulatory challenge J Neurophysiol. 99, 2844-2863.

Muñiz, C., Levi, R., Benkrid, M., Rodríguez, F. B. & Varona, P. Real-time control of stepper motors for mechano-sensory stimulation. J. Neurosci. Methods 172, 105–111 (2008).

Alpert, M.H., Zhang, H.Y., Molinari, M., Heitler, W.J. and Sillar, K.T. (2007) Nitric oxide modulation of the electrically excitable skin of Xenopus laevis frog tadpoles. J. exp. Biol. 210, 3910-3918.

Ayali, A. Fuchs, E., Ben-Jacob, E. and Cohen, A. The function of intersegmental connections in determining temporal characteristics of the spinal cord rhythmic output. Neuroscience,147, 236-246.

Bhatt , D . McLean , D, . Hale , M ., Fetcho. J.R. (2007) Grading movement strength by changes in firing intensity versus recruitment of spinal interneurons. Neuron 53, 91-102.

Chapman, R.J. and Sillar, K.T. (2007). Modulation of a spinal locomotor network by metabotropic glutamate receptors. Eur. J. Neurosci. 26, 2257-2268.

Issberner, J.P. and Sillar, K.T. (2007).The contribution of the NMDA receptor glycine site to rhythm generation during fictive swimming in Xenopus laevis tadpoles. Eur. J. Neurosci. 26, 2556-2564.

McCaughey, S.A. (2007) Taste-evoked responses to sweeteners in the nucleus of the solitary tract differ between C57BL/6ByJ and 129P3/J Mice. J. Neurosci. 27, 35-45.

Mulloney, B. and Hall, W.M. (2007). Local and intersegmental interactions of coordinating neurons and local circuits in the swimmeret system. J Neurophysiol. 98, 405-413.

Mulloney, B. and Hall, W.M. (2007) Not by spikes alone: responses of coordinating neurons and the swimmeret system to local differences in excitation. J Neurophysiol. 97, 436-450.

Neverova, N.V. Saywell, S.A. Nashold, L.J., Mitchell, G.S. and Feldman, J.L. (2007). Episodic stimulation of {alpha}1-adrenoreceptors induces protein kinase C-dependent persistent changes in motoneuronal excitability. J.Neurosci. 27, 4435-4442.

Shao, X.M. and Feldman, J.L. (2007). Efficient measurement of endogenous neurotransmitters in small localized regions of central nervous systems in vitro with HPLC. J. Neurosci. Meth. 160, 256-263.

Levi, R., Varona, P., Arshavsky, Y. I., Rabinovich, M. I. & Selverston, A. I. The role of sensory network dynamics in generating a motor program. J. Neurosci. 25, 9807–9815 (2005).

McLean, D.L. and Sillar, K.T. (2004). Metamodulation of a spinal locomotor network by nitric oxide. J. Neurosci. 24, 9561-9571.

Mezoff, S., Papastathis, N., Takesian, A. and Trimmer, B.A. (2004). The biomechanical and neural control of hydrostatic limb movements in Manduca sexta. J. exp. Biol. 207, 3043-3053.

Shao, X.M. and Feldman, J.L. (2004). Cholinergic neurotransmission in the preBÖtzinger Complex modulates excitability of inspiratory neurons and regulates respiratory rhythm. Neuroscience 130, 1069-1081.

Drouot, X., Oshino, S. Jarraya, B., Besret, L., Kishima, H., Remy, P., Dauguet, J.,Lefaucheur, J., Dollé, F. and Condé, F. (2003). Functional recovery in a primate model of Parkinson's disease following motor cortex stimulation neuron. Neuron44, 769-778.

McLean, D.L. and Sillar, K.T. (2003). Spinal and supraspinal functions of noradrenaline in the frog embryo: consequences for motor behaviour. J Physiol. 551, 575-587.

Merrywest, S.D., McDearmid, J.R. Kjaerulff, ). and Kiehn, O. (2003). Mechanisms underlying the noradrenergic modulation of longitudinal coordination during swimming in Xenopus laevis tadpoles. Eur. J. Neurosci. 17, 1013-1022.

Veruki, M.L., Mørkve, S. H. and Hartveit, E. (2003). Functional properties of spontaneous EPSCs and non-NMDA receptors in rod amacrine (AII) cells in the rat retina. J Physiol 549, 759-774

Fischer, H. Wolf, H. and Büschges, A. (2002). The locust tegula: kinematic parameters and activity pattern during the wing stroke. J. exp. Biol. 205, 1531-1545.

McLean, D.L. and Sillar, K.T. (2002). Nitric oxide selectively tunes inhibitory synapses to modulate vertebrate locomotion. J. Neurosci. 22, 4175-4184.

Merrywest, S.D., Fischer, H and Sillar, K.T. (2002). Alpha-adrenoreceptor activation modulates swimming via glycinergic and GABAergic inhibitory pathways in Xenopus laevis tadpoles. Eur. J. Neurosci. 15, 375-383.

Thuault, S.J., Davies, C.H., Randall, A.D. and Collingridge, G.L. (2002). Group I mGluRs modulate the pattern of non-synaptic epileptiform activity in the hippocampus. Neuropharm. 43, 141-146.

Veruki, M.L. and Hartveit, E. (2002). AII (Rod) amacrine cells form a network of electrically coupled interneurons in the mammalian retina. Neuron33,935-946.

Veruki, M.L. and Hartveit, E. (2002). Electrical synapses mediate signal transmission in the rod pathway of the mammalian retina. J. Neurosci. 22, 10558-10566.

Vera, P.L., Miranda-Sousa, A.J., Ordorica, R.C. and Nadelhaft, I. (2002). Central effects of clozapine in regulating micturition in anesthetized rats BMC Pharmacology, 2:6

Fischer, H., Merrywest, S.D. and Sillar, K.T. (2001). Adrenoreceptor-mediated modulation of the spinal locomotor pattern during swimming in Xenopus laevis tadpoles. Eur. J. Neurosci.13, 977-986.

Vera,P.L., Miranda-Sousa, A. and Nadelhaft, I. (2001). Effects of two atypical neuroleptics, olanzapine and risperidone, on the function of the urinary bladder and the external urethral sphincter in anesthetized rats. BMC Pharmacology 1:4

Vera, P.L. and Nadelhaft, I. (2001) Clozapine inhibits micturition parameters and the external urethral sphincter during cystometry in anesthetized rats. Brain Res. 901, 219-229.