2013
DOI: 10.1523/jneurosci.4087-13.2014
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Optogenetic Activation of Excitatory Premotor Interneurons Is Sufficient to Generate Coordinated Locomotor Activity in Larval Zebrafish

Abstract: Neural networks in the spinal cord can generate locomotion in the absence of rhythmic input from higher brain structures or sensory feedback because they contain an intrinsic source of excitation. However, the molecular identity of the spinal interneurons underlying the excitatory drive within the locomotor circuit has remained unclear. Using optogenetics, we show that activation of a molecularly defined class of ipsilateral premotor interneurons elicits locomotion. These interneurons represent the excitatory … Show more

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Cited by 84 publications
(88 citation statements)
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“…1 A, B). Whole-cell patch and peripheral motor nerve recordings were performed as described previously (Drapeau et al, 1999;Masino and Fetcho, 2005), using a modified patch solution to perform voltage-clamp recordings (see below). Briefly, larvae were first anesthetized in MS-222 and then immobilized in ␣-bungarotoxin (Sigma-Aldrich), both of which were dissolved in extracellular solution (1 mg/ml).…”
Section: Methodsmentioning
confidence: 99%
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“…1 A, B). Whole-cell patch and peripheral motor nerve recordings were performed as described previously (Drapeau et al, 1999;Masino and Fetcho, 2005), using a modified patch solution to perform voltage-clamp recordings (see below). Briefly, larvae were first anesthetized in MS-222 and then immobilized in ␣-bungarotoxin (Sigma-Aldrich), both of which were dissolved in extracellular solution (1 mg/ml).…”
Section: Methodsmentioning
confidence: 99%
“…To more reliably evoke a broader range of swim frequencies than those observed spontaneously, we delivered a brief electrical stimulus to the skin to mimic tactile input (Clarke and Roberts, 1984). The highest frequencies within a bout tend to occur immediately following the stimulus (McLean et al, 2008); however, increases in frequency within this period could be achieved by increasing the intensity of the electrical stimulus (2-10 V, 0.1 ms). Recruitment patterns during evoked decelerations in swimming frequency and spontaneous accelerations are virtually indistinguishable (McLean et al, 2008).…”
Section: Methodsmentioning
confidence: 99%
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