Acute off-target effects of neural circuit manipulations

[1]  Ashesh K Dhawale,et al.  Motor Cortex Is Required for Learning but Not for Executing a Motor Skill , 2015, Neuron.

[2]  G. Tononi,et al.  Diaschisis: past, present, future. , 2014, Brain : a journal of neurology.

[3]  Simon X. Chen,et al.  Emergence of reproducible spatiotemporal activity during motor learning , 2014, Nature.

[4]  Stefan R. Pulver,et al.  Independent Optical Excitation of Distinct Neural Populations , 2014, Nature Methods.

[5]  Risa Kawai,et al.  A Fully Automated High-Throughput Training System for Rodents , 2013, PloS one.

[6]  Georg B. Keller,et al.  Synaptic Scaling and Homeostatic Plasticity in the Mouse Visual Cortex In Vivo , 2013, Neuron.

[7]  Yoram Burak,et al.  The Basal Ganglia Is Necessary for Learning Spectral, but Not Temporal, Features of Birdsong , 2013, Neuron.

[8]  Bence P. Ölveczky,et al.  Motor circuits are required to encode a sensory model for imitative learning , 2012, Nature Neuroscience.

[9]  J. Simon Wiegert,et al.  Multiple dynamic representations in the motor cortex during sensorimotor learning , 2012, Nature.

[10]  L. Parra,et al.  Vocal Exploration Is Locally Regulated during Song Learning , 2012, The Journal of Neuroscience.

[11]  Richard H R Hahnloser,et al.  Regulation of learned vocal behavior by an auditory motor cortical nucleus in juvenile zebra finches. , 2011, Journal of neurophysiology.

[12]  Dezhe Z. Jin,et al.  Support for a synaptic chain model of neuronal sequence generation , 2010, Nature.

[13]  Janita Turchi,et al.  Pulvinar Inactivation Disrupts Selection of Movement Plans , 2010, The Journal of Neuroscience.

[14]  Niraj S. Desai,et al.  Homeostatic Plasticity and STDP: Keeping a Neuron's Cool in a Fluctuating World , 2010, Front. Syn. Neurosci..

[15]  M. London,et al.  Sensitivity to perturbations in vivo implies high noise and suggests rate coding in cortex , 2010, Nature.

[16]  Richard Hans Robert Hahnloser,et al.  Spike-Time-Dependent Plasticity and Heterosynaptic Competition Organize Networks to Produce Long Scale-Free Sequences of Neural Activity , 2010, Neuron.

[17]  Michale S Fee,et al.  The songbird as a model for the generation and learning of complex sequential behaviors. , 2010, ILAR journal.

[18]  P. Phillips Epistasis — the essential role of gene interactions in the structure and evolution of genetic systems , 2008, Nature Reviews Genetics.

[19]  M. Fee,et al.  Using temperature to analyze temporal dynamics in the songbird motor pathway , 2008, Nature.

[20]  O. Sporns,et al.  Dynamical consequences of lesions in cortical networks , 2008, Human brain mapping.

[21]  Thomas H. Brown,et al.  Imaging the spread of reversible brain inactivations using fluorescent muscimol , 2008, Journal of Neuroscience Methods.

[22]  Correlation between sleep and cognitive functions after hemispheric ischaemic stroke , 2008, European journal of neurology.

[23]  Michale S Fee,et al.  A Specialized Forebrain Circuit for Vocal Babbling in the Juvenile Songbird , 2008, Science.

[24]  T. Jones,et al.  Motor Skill Training, but not Voluntary Exercise, Improves Skilled Reaching After Unilateral Ischemic Lesions of the Sensorimotor Cortex in Rats , 2008, Neurorehabilitation and neural repair.

[25]  John F. Guzowski,et al.  Networks of neurons, networks of genes: An integrated view of memory consolidation , 2008, Neurobiology of Learning and Memory.

[26]  Richard H R Hahnloser,et al.  Sleep-related spike bursts in HVC are driven by the nucleus interface of the nidopallium. , 2007, Journal of neurophysiology.

[27]  K. Deisseroth,et al.  Circuit-breakers: optical technologies for probing neural signals and systems , 2007, Nature Reviews Neuroscience.

[28]  Feng Zhang,et al.  Channelrhodopsin-2 and optical control of excitable cells , 2006, Nature Methods.

[29]  E. Marder,et al.  Variability, compensation and homeostasis in neuron and network function , 2006, Nature Reviews Neuroscience.

[30]  G. Tononi,et al.  Sleep function and synaptic homeostasis. , 2006, Sleep medicine reviews.

[31]  H. Fields,et al.  Inhibitions of Nucleus Accumbens Neurons Encode a Gating Signal for Reward-Directed Behavior , 2006, The Journal of Neuroscience.

[32]  Jessica A. Cardin,et al.  Sensorimotor nucleus NIf is necessary for auditory processing but not vocal motor output in the avian song system. , 2005, Journal of neurophysiology.

[33]  Aaron S. Andalman,et al.  Vocal Experimentation in the Juvenile Songbird Requires a Basal Ganglia Circuit , 2005, PLoS biology.

[34]  R. Stickgold,et al.  Sleep-Dependent Learning and Memory Consolidation , 2004, Neuron.

[35]  G. Kwakkel,et al.  The impact of physical therapy on functional outcomes after stroke: what's the evidence? , 2004, Clinical rehabilitation.

[36]  Robin C. Ashmore,et al.  Bilateral Control and Interhemispheric Coordination in the Avian Song Motor System , 2004, Annals of the New York Academy of Sciences.

[37]  W. Wadman,et al.  Homeostatic scaling of neuronal excitability by synaptic modulation of somatic hyperpolarization-activated Ih channels. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[38]  D. B. Bender,et al.  Saccadic eye movements following kainic acid lesions of the pulvinar in monkeys , 2004, Experimental Brain Research.

[39]  D. McCormick,et al.  Turning on and off recurrent balanced cortical activity , 2003, Nature.

[40]  John Simmers,et al.  Long-term neuromodulatory regulation of a motor pattern-generating network: maintenance of synaptic efficacy and oscillatory properties. , 2002, Journal of neurophysiology.

[41]  Richard Hans Robert Hahnloser,et al.  An ultra-sparse code underliesthe generation of neural sequences in a songbird , 2002, Nature.

[42]  J. Shobe,et al.  The Role of PKA, CaMKII, and PKC in Avoidance Conditioning: Permissive or Instructive? , 2002, Neurobiology of Learning and Memory.

[43]  G L Gerstein,et al.  Role of mammalian auditory cortex in the perception of elementary sound properties. , 2001, Journal of neurophysiology.

[44]  C. E. Ho,et al.  A procedure for an automated measurement of song similarity , 2000, Animal Behaviour.

[45]  T. Schallert,et al.  Cortical injury impairs contralateral forelimb immobility during swimming: a simple test for loss of inhibitory motor control , 1999, Behavioural Brain Research.

[46]  Eve Marder,et al.  Network Stability from Activity-Dependent Regulation of Neuronal Conductances , 1999, Neural Computation.

[47]  G. Turrigiano Homeostatic plasticity in neuronal networks: the more things change, the more they stay the same , 1999, Trends in Neurosciences.

[48]  Stephen G Lomber,et al.  The advantages and limitations of permanent or reversible deactivation techniques in the assessment of neural function , 1999, Journal of Neuroscience Methods.

[49]  Haim Sompolinsky,et al.  Chaotic Balanced State in a Model of Cortical Circuits , 1998, Neural Computation.

[50]  Niraj S. Desai,et al.  Activity-dependent scaling of quantal amplitude in neocortical neurons , 1998, Nature.

[51]  John H. Martin Autoradiographic estimation of the extent of reversible inactivation produced by microinjection of lidocaine and muscimol in the rat , 1991, Neuroscience Letters.

[52]  D. Vicario,et al.  Brain pathways for learned and unlearned vocalizations differ in zebra finches , 1990, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[53]  W. Newsome,et al.  A selective impairment of motion perception following lesions of the middle temporal visual area (MT) , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[54]  J. S. McCasland,et al.  Neuronal control of bird song production , 1987, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[55]  G. Quirk,et al.  The organization of the rat motor cortex: A microstimulation mapping study , 1986, Brain Research Reviews.