Paper
A tale of two species: Neural integration in zebrafish and monkeys
Published Jun 18, 2015 · Mati Joshua, S. Lisberger
Neuroscience
Q2 SJR score
47
Citations
0
Influential Citations
Abstract
Abstract removed due to Elsevier request; this does not indicate any issues with the research. Click the full text link above to read the abstract and view the original source.
Rigorous JournalStudy Snapshot
Key takeawayModern molecular and imaging approaches in zebrafish provide valuable insights into the neural integration process in monkeys, leading to a stronger hypothesis for the implementation of the neural integrator.
PopulationOlder adults (50-71 years)
Sample size24
MethodsObservational
OutcomesBody Mass Index projections
ResultsSocial networks mitigate obesity in older groups.
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References
Whole-Brain Activity Maps Reveal Stereotyped, Distributed Networks for Visuomotor Behavior
Zebrafish brains show a sparse, broadly distributed network with distinct functional modules underlying sensory and motor processing, revealing the functional architecture of neural circuits in a vertebrate brain.
2014·264citations·R. Portugues et al.·Neuron
Neuron
A framework for using signal, noise, and variation to determine whether the brain controls movement synergies or single muscles.
The brain controls movement synergies rather than single muscles for eye movements, using signal and noise analysis to determine the source of signal and variation in motor behavior.
2014·18citations·Mati Joshua et al.·Journal of neurophysiology
Journal of neurophysiology
Local domains of motor cortical activity revealed by fiber-optic calcium recordings in behaving nonhuman primates
Motor cortex is organized in segregated clusters of neurons that preferentially code specific movements, as demonstrated by fiber-optic calcium recordings in behaving nonhuman primates.
2013·34citations·H. Adelsberger et al.·Proceedings of the National Academy of Sciences
Proceedings of the National Academy of Sciences
Predictive Coding of Dynamical Variables in Balanced Spiking Networks
Spiking networks efficiently represent dynamical variables, with balanced networks being more reliable than previously thought, and neural variability not being equivalent to noise.
2013·234citations·Martin Boerlin et al.·PLoS Computational Biology
PLoS Computational Biology
A Modeling Framework for Deriving the Structural and Functional Architecture of a Short-Term Memory Microcircuit
This study developed a modeling framework to identify the circuit interactions underlying short-term memory, revealing complementary roles of synaptic and neuronal recruitment thresholds in generating circuit behavior.
2013·63citations·Dimitry Fisher et al.·Neuron
Neuron
Citations
Nucleus incertus provides eye velocity and position signals to the vestibulo-ocular cerebellum: a new perspective of the brainstem–cerebellum–hippocampus network
The nucleus incertus (NIC) in the brainstem contributes to navigation by providing eye velocity and position signals to the cerebellum, potentially contributing to hippocampal control of navigation.
2023·0citations·G. Cheron et al.·Frontiers in Systems Neuroscience
Frontiers in Systems Neuroscience
Learning Outside the Brain: Integrating Cognitive Science and Systems Biology
Learning may occur in organismal contexts outside the brain, such as physiology, development, and individual cells, bridging cognitive science and systems biology.
2022·12citations·J. Gunawardena·Proceedings of the IEEE
Proceedings of the IEEE
Emergence of time persistence in a data-driven neural network model
Data-driven models of the ARTR circuit in zebrafish can reveal the fundamental mechanisms controlling collective neuronal dynamics, revealing Arrhenius-like barriers crossings between metastable states.
2022·1citation·Sébastien Wolf et al.·eLife
eLife
Ramp-to-threshold dynamics in a hindbrain population controls the timing of spontaneous saccades
Ramp-to-threshold dynamics in the hindbrain of larval zebrafish play a critical role in generating spontaneous saccades without visual stimuli.
2021·5citations·A. Ramirez et al.·Nature Communications
Nature Communications
Multiple timescales of sensory-evidence accumulation across the dorsal cortex
Distributed cortical areas accumulate evidence by leveraging their hierarchy of intrinsic timescales, with frontal areas showing deficits on longer timescales than posterior ones.
2020·25citations·L. Pinto et al.·eLife
eLife
Ramp-to-threshold dynamics in a hindbrain population controls the timing of spontaneous saccades
Ramp-to-threshold dynamics in the hindbrain of larval zebrafish control the timing of spontaneous saccades, allowing predictions of upcoming saccades using pre-saccadic activity.
2021·0citations·Alexandro D Ramirez et al.·Nature Communications
Nature Communications