Role of Different Dendrites in the Functional Activity of the Central Neuron Controlling Goldfish Behavior

Мошков, Д. А.; Михайлова, Г. З.; Grigorieva, E. E.; Shtanchaev, R. Sh.

doi:10.1142/s0219635209002307

Cited by 13 publications

(2 citation statements)

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“…In the poecilid, Girardinus metallicus, the directional bias for right or left turns in a detour test positively correlate with head incline asymmetry, but negatively with a fast-escape response test (Matsui et al, 2013). Fast-start startle responses are controlled by the mauthner neurons and several studies have revealed that the direction of the startle response is correlated with the size of the mauthner neuron on the left of right side of the body (eg Moshkov et al, 2009). Dadda et al (2010a,b) for example found that strongly lateralised fish showed higher escape reactivity…”

Section: Laterality and Swimming/schooling Behaviourmentioning

confidence: 99%

Laterality and fish welfare - A review

Berlinghieri

Panizzon

Penry-Williams

et al. 2021

Applied Animal Behaviour Science

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Section: Laterality and Swimming/schooling Behaviourmentioning

confidence: 99%

Laterality and fish welfare - A review

Berlinghieri

Panizzon

Penry-Williams

et al. 2021

Applied Animal Behaviour Science

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“…Three-dimensional reconstruction of motoneurons. Three-dimensional reconstruction of the motoneurons and reference structures was performed using serial histological slices according to the method previously described [28][29][30]. The diameters of the soma and nucleus were determined on panoramic images of histological slices using Adobe Photoshop and PTGui v.9.1.8 Pro (USA).…”

Section: Bioethicsmentioning

confidence: 99%

Influence of a 30-day spaceflight on the structure of motoneurons of the trochlear nerve nucleus in mice

et al. 2021

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During spaceflight and immediately after it, adaptive neuroplastic changes occur in the sensorimotor structures of the central nervous system, which are associated with changes of mainly vestibular and visual signals. It is known that the movement of the eyeball in the vertical direction is carried out by muscles that are innervated by the trochlear nerve (CN IV) and the oculomotor nerve (CN III). To elucidate the cellular processes underlying the atypical vertical nystagmus that occurs under microgravity conditions, it seems necessary to study the state of these nuclei in animals in more detail after prolonged space flights. In this work, we carried out a qualitative and quantitative light-optical and ultrastructural analysis of the nuclei of the trochlear nerve in mice after a 30-day flight on the Bion-M1 biosatellite and followed by a stay for 13-14 hours under the influence of the Earth's gravity after landing. As a result, it was shown that the motoneurons in the nucleus of the trochlear nerve changed their morphology under the influence of microgravity. Cell nuclei of the motoneurons had a more simplified rounded shape than in the control. In addition, the dendrites of these motoneurons significantly reorganized geometry and orientation under microgravity conditions; the number of dendritic branches has been increased to enhance the reduced signal flow. Apparently, to ensure such plastic changes, the number and size of mitochondria in the soma of motoneurons and in axons coming from the vestibular structures increased. In addition, the experimental animals showed an increase in the size of the cisterns of the rough and smooth endoplasmic reticulum in comparison with the control group of animals left on Earth, for which the environmental conditions in the spacecraft were reproduced.Thus, the main role in the adaptation of the trochlear nucleus to microgravity conditions, apparently, belongs to the dendrites of motoneurons, which rearrange their structure and function to enhance the flow of sensory information. These results are useful for the development of new, more effective means to facilitate the stay and work of space travelers in a long spaceflight..

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