M.J. Smit-Onel scite author profile

The neuromuscular system in the trunk of larval and adult zebrafishes was studied by means of light and electronmicroscopical methods. Spinal motoneurons were identified with the horseradish peroxidase retrograde transport method. We correlated the differentiation and growth of the myotomal muscle with the number of motoneurons per spinal cord segment and the size of the motoneuron somata. The adult number of motoneurons is reached in an early larval stage, before the muscle fiber type differentiation in the myotomes is completed. The mean motoneuron size does not bear a clear correlation with the size of the myotomal muscle. In adult zebrafishes we could distinguish the motoneurons which innervate the superficial slow red and the deep fast white muscle fibers on the basis of soma size and position in the motor column. The motoneurons of the red muscle part are small; they are located in the ventrolateral part of the motor column. The motoneurons of the deep fast white fibers are large; they lie near the central canal.

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Long term effects of spinal cord transection in Zebrafish: swimming performances, and metabolic properties of the neuromuscular system

Raamsdonk

Maslam

Jong

et al. 1998

Acta Histochemica

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Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Dendrites and 5-HT containing Cells

Raamsdonk¹,

Bosch²,

Smit-Onel³

et al. 1996

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Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Denfrites and 5-HT containing Cells

Raamsdonk

Bosch²,

Smit-Onel³

et al. 1996

European Journal of Morphology

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In order to find arguments for a selective innervation and modulation of the fast and slow spinal motoneurons in the zebrafish, we determined: the territories occupied by the dendritic trees of the large spinal motoneurons innervating the fast white muscle (WMNs) and those of the smaller motoneurons (RIMNs) innervating the slower red and intermediate fibers; the distribution of 5-hydroxytryptamine (5-HT) immunoreactive cells, which constitute one of the systems for the modulation of motoneuron activity. Motoneurons were either retrogradely labelled with horseradish peroxidase or iontophoretically filled with Lucifer yellow. The 5-HT cells were identified immunohistochemically. We found that the dendritic territories of the WMNs and those of the RIMNs partly overlap but they also occupy unique areas. The unique area of the WMN dendrites is dorsal to the lateral neuropil, where axon collaterals of the bulbospinal tract invade the motor column; the unique area of the RIMN dendrites lies in the ventral part of the cord, near the ventral commissural tract. 5-HT immunoreactive cells were observed in the ventromedial part of the spinal cord and among the motoneuron somata. The large overlap in dendrite territories between the WMNs and RIMNs argues for a motoneuron recruitment pattern as may be expected from the size principle; while the distinct areas occupied by dendrites of either WMNs or RIMNs hints at a selective innervation. The presence of the 5-HT cells close to the motoneuron somata and in the ventral area, where dendrites of the RIMNs ramify, suggests that the activities of the motoneuron types can be selectively modulated.

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Enzyme histochemical profiles of fish spinal motoneurons after cordotomy and axotomy of motor nerves

et al. 1990

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M.J. Smit-Onel

The development of the spinal motor column in relation to the myotomal muscle fibers in the zebrafish (Brachydanio rerio)

Long term effects of spinal cord transection in Zebrafish: swimming performances, and metabolic properties of the neuromuscular system

Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Dendrites and 5-HT containing Cells

Organisation of the Zebrafish Spinal Cord: Distribution of Motoneuron Denfrites and 5-HT containing Cells

Enzyme histochemical profiles of fish spinal motoneurons after cordotomy and axotomy of motor nerves

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