ROLE OF DIFFERENT DENDRITES IN THE FUNCTIONAL ACTIVITY OF THE CENTRAL NEURON CONTROLLING GOLDFISH BEHAVIOR
2009; Imperial College Press; Volume: 08; Issue: 04 Linguagem: Inglês
10.1142/s0219635209002307
ISSN1757-448X
AutoresД. А. Мошков, Г. З. Михайлова, E. E. Grigorieva, R. Sh. Shtanchaev,
Tópico(s)Advanced Scientific Research Methods
ResumoJournal of Integrative NeuroscienceVol. 08, No. 04, pp. 441-451 (2009) Short CommunicationsNo AccessROLE OF DIFFERENT DENDRITES IN THE FUNCTIONAL ACTIVITY OF THE CENTRAL NEURON CONTROLLING GOLDFISH BEHAVIORDMITRY A. MOSHKOV, GULNARA Z. MIKHAILOVA, EKATERINA E. GRIGORIEVA, and RASHID S. SHTANCHAEVDMITRY A. MOSHKOVInstitute of Theoretical and Experimental Biophysics, Russian Academy of Sciences, Pushchino State University, Pushchino, Moscow Region, 142290, Russian Federation Search for more papers by this author , GULNARA Z. MIKHAILOVALaboratory of Neuron Ultrastructure, Pushchino, Moscow Region, 142290, Russian Federation Search for more papers by this author , EKATERINA E. GRIGORIEVALaboratory of Neuron Ultrastructure, Pushchino, Moscow Region, 142290, Russian Federation Search for more papers by this author , and RASHID S. SHTANCHAEVLaboratory of Neuron Ultrastructure, Pushchino, Moscow Region, 142290, Russian Federation Search for more papers by this author https://doi.org/10.1142/S0219635209002307Cited by:12 PreviousNext AboutSectionsPDF/EPUB ToolsAdd to favoritesDownload CitationsTrack CitationsRecommend to Library ShareShare onFacebookTwitterLinked InRedditEmail AbstractThe structural mechanisms that control the neuronal functional activity maintaining the brain functional asymmetry were studied using the relationship between the function and structure of goldfish Mauthner neurons (MNs) responsible for fish motor asymmetry as a model. It was shown for the first time that the dominant activity in one of the two counter neurons symmetrically situated in the medulla oblongata directly correlates with changes in its integral volume and is inversely regulated by the size of its ventral dendrite. It is known that the variability of the neuron dimensions is due to changes in the actin component of the cytoskeleton. The experimental data presented are discussed in terms of the involvement of cytosol actin in the control of the volume of somata and the main dendrites of MNs with the participation of dopamine and glutamate, two major neurotransmitters that are known to regulate the function of MNs.Keywords:Goldfish behavior lateralityMauthner neuron structuremorpho-functional correlation References E. N. Bezginaet al., Neurophysiol. 38, 267 (2006). Crossref, Medline, ISI, Google ScholarJ. G. Canfield, J. Comp. Physiol. 193, 1055 (2007), DOI: 10.1007/s00359-007-0258-2. Crossref, ISI, Google ScholarN. N. Karpouket al., in vitro, Neurophysiology 36, 254 (2004). Crossref, Google ScholarN. A. Kokanovaet al., Morfologia. 136, 72 (2009). Google ScholarH. Korn and D. S. Faber, Neuron 47, 13 (2005), DOI: 10.1016/j.neuron.2005.05.019. Crossref, Medline, ISI, Google ScholarG. Z. 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Crossref, Medline, ISI, Google Scholar FiguresReferencesRelatedDetailsCited By 12Studying the structure of the nucleus of the trochlear nerve in mice through 7 days of readaptation to earth gravity after spaceflightIrina Mikheeva, Gulnara Mikhailova, Natalya Zhujkova, Rashid Shtanchaev and Vladimir Arkhipov et al.1 Nov 2022 | Brain Research, Vol. 1795Influence of a 30-day spaceflight on the structure of motoneurons of the trochlear nerve nucleus in miceIrina Mikheeva, Gulnara Mikhailova, Rashid Shtanchaev, Vladimir Arkhipov and Lyubov Pavlik1 May 2021 | Brain Research, Vol. 1758Laterality and fish welfare - A reviewFlavia Berlinghieri, Paolo Panizzon, Iestyn Lloyd Penry-Williams and Culum Brown1 Mar 2021 | Applied Animal Behaviour Science, Vol. 236Changes in the Dendrite Morphology of Mauthner Neurons in Goldfish under the Conditions of Monocular Deprivation and Sensory StimulationG. Z. Mikhailova, R. Sh. Shtanchaev, E. N. Bezgina, N. N. Kashirskaya and N. A. Pen’kova et al.13 May 2019 | Biophysics, Vol. 64, No. 1The Neuroprotective Effect of the Thr–Ser–Lys–Tyr Peptide in a Goldfish Mauthner Cell Model in vivoG. Z. Mikhailova, E. N. Bezgina, N. N. Kashirskaya, N. A. Ivlicheva and R. H. Ziganshin et al.26 June 2018 | Biophysics, Vol. 63, No. 2Changes in Motor Asymmetry of the Goldfish Related to Adaptation to Vestibular Stimulation and Applications of Beta-Amyloid on Mauthner CellsN. R. Tiras, N. A. Pen’kova, Ye. N. Besgina, G. A. Alilova and D. A. Moshkov26 June 2015 | Neurophysiology, Vol. 47, No. 2Morphofunctional and Ultrastructural Consequences of Application of Beta-Amyloid on Goldfish Mauthner NeuronsN. A. Kokanova, G. Z. Mikhailova, R. Sh. Shtanchayev, Ye. N. Bezgina N. R. Tiras and D. A. Moshkov20 April 2014 | Neurophysiology, Vol. 46, No. 1Serotoninergic Synapses on the Ventral Dendrite of Mauthner Neurons (an ultrastructural study using immunogold labeling)I. B. Mikheeva, E. E. Grigor’eva, G. Z. Mikhailova, R. Sh. Shtanchaev and L. L. Pavlik et al.20 December 2013 | Neuroscience and Behavioral Physiology, Vol. 44, No. 1Visual input controls the functional activity of goldfish Mauthner neuron through the reciprocal synaptic mechanismDmitry A. Moshkov, Rashid S. Shtanchaev, Irina B. Mikheeva, Elena N. Bezgina, Nadezhda A. Kokanova, Gulnara Z. Mikhailova, Nadezhda R. Tiras, and Lyubov' L. Pavlik28 April 2013 | Journal of Integrative Neuroscience, Vol. 12, No. 01Ultrastructure of Mauthner Neurons in Optokinetic Stimulation and Enucleation of the EyeI. B. Mikheeva, N. Yu. Tsaplina, E. E. Grigorieva, E. N. Bezgina and R. Sh. Shtanchaev et al.11 September 2012 | Neuroscience and Behavioral Physiology, Vol. 42, No. 7Correlation between the Sizes of Individual Parts of Mauthner Neurons in Goldfish and Their Integral Function after Enucleation of the EyeE. E. Grigorieva, R. Sh. Shtanchaev, G. Z. Mikhailova, N. R. Tiras and D. A. Moshkov28 December 2011 | Neuroscience and Behavioral Physiology, Vol. 42, No. 1Changes in the Motor Asymmetry and Structure of Mauthner Neurons of the Goldfish Resulting from Unilateral Visual DeprivationE. E. Grigorieva, R. Sh. Shtanchayev, G. Z. Mikhailova, N. R. Tiras and D. A. Moshkov28 October 2010 | Neurophysiology, Vol. 42, No. 3 Recommended Vol. 08, No. 04 Metrics History Received 29 October 2009 Revised 2 December 2009 KeywordsGoldfish behavior lateralityMauthner neuron structuremorpho-functional correlationPDF download
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