2014
DOI: 10.1016/j.neuron.2014.01.019
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Whole-Brain Activity Maps Reveal Stereotyped, Distributed Networks for Visuomotor Behavior

Abstract: Summary Most behaviors, even simple innate reflexes, are mediated by circuits of neurons spanning areas throughout the brain. However, in most cases, the distribution and dynamics of firing patterns of these neurons during behavior are not known. We imaged activity, with cellular resolution, throughout the whole brains of zebrafish performing the optokinetic response. We found a sparse, broadly distributed network that has an elaborate, but ordered, pattern, with a bilaterally symmetrical organization. Activit… Show more

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Cited by 266 publications
(325 citation statements)
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“…Notably, ethanol showed strong excitatory effects in brain regions in caudal hindbrain, cerebellum, ventral midbrain, and forebrain, which has previously been reported to be responsible for locomotion and vision related functions. 24,35,36 We believed that this novel and versatile Fish-on-Chip platform has the potential to be widely adopted in zebrafish studies.…”
Section: Discussionmentioning
confidence: 99%
“…Notably, ethanol showed strong excitatory effects in brain regions in caudal hindbrain, cerebellum, ventral midbrain, and forebrain, which has previously been reported to be responsible for locomotion and vision related functions. 24,35,36 We believed that this novel and versatile Fish-on-Chip platform has the potential to be widely adopted in zebrafish studies.…”
Section: Discussionmentioning
confidence: 99%
“…Recently, the combination of optical and genetic techniques has allowed to record networks composed of thousands of neurons at single-cell resolution level [3], [4], [18], [19], [39], [40]. In the zebrafish embryonic spinal cord we show here that Granger-causality graph analysis of calcium imaging data, obtained from a single plane at the single cell resolution and low acquisition rate, can resolve the well-known rostro-caudal propagation in the spinal cord where cross-correlation analysis did fail.…”
Section: -Discussionmentioning
confidence: 99%
“…Applied to Z-scan measurements, our methodological approach could provide new insights on mechanisms underlying activity propagation and information flows between larger populations of neurons in dataset acquired on the whole brain [4], [18], [19], [39], [40], [42] and at faster acquisition rates [43]. However, when considering a large number of neurons (N >>10), particular attention should be paid to the statistical validation of the estimated GC networks.…”
Section: -Discussionmentioning
confidence: 99%
“…This dynamic circuit activity can be analyzed with time series methods, and there is evidence of functionally coherent circuits forming clusters or modules (Portugues et al 2014). A near-term goal will be to relate the timing of correlated neural events to underlying anatomical connections that modulate whole-brain functional connectivity.…”
Section: Microscalementioning
confidence: 99%