Anderson JS, Carandini M, Ferster D. (2000). Orientation tuning of input conductance, excitation, and inhibition in cat primary visual cortex. Journal of neurophysiology. 84 [PubMed]
Atiani S et al. (2014). Emergent selectivity for task-relevant stimuli in higher-order auditory cortex. Neuron. 82 [PubMed]
Bakin JS, Weinberger NM. (1996). Induction of a physiological memory in the cerebral cortex by stimulation of the nucleus basalis. Proceedings of the National Academy of Sciences of the United States of America. 93 [PubMed]
Chubykin AA, Roach EB, Bear MF, Shuler MG. (2013). A cholinergic mechanism for reward timing within primary visual cortex. Neuron. 77 [PubMed]
David SV, Fritz JB, Shamma SA. (2012). Task reward structure shapes rapid receptive field plasticity in auditory cortex. Proceedings of the National Academy of Sciences of the United States of America. 109 [PubMed]
Dorrn AL, Yuan K, Barker AJ, Schreiner CE, Froemke RC. (2010). Developmental sensory experience balances cortical excitation and inhibition. Nature. 465 [PubMed]
Ferster D. (1986). Orientation selectivity of synaptic potentials in neurons of cat primary visual cortex. The Journal of neuroscience : the official journal of the Society for Neuroscience. 6 [PubMed]
Fritz J, Shamma S, Elhilali M, Klein D. (2003). Rapid task-related plasticity of spectrotemporal receptive fields in primary auditory cortex. Nature neuroscience. 6 [PubMed]
Froemke RC. (2015). Plasticity of cortical excitatory-inhibitory balance. Annual review of neuroscience. 38 [PubMed]
Froemke RC et al. (2013). Long-term modification of cortical synapses improves sensory perception. Nature neuroscience. 16 [PubMed]
Froemke RC, Merzenich MM, Schreiner CE. (2007). A synaptic memory trace for cortical receptive field plasticity. Nature. 450 [PubMed]
Fu Y et al. (2014). A cortical circuit for gain control by behavioral state. Cell. 156 [PubMed]
Gennari SP, MacDonald MC, Postle BR, Seidenberg MS. (2007). Context-dependent interpretation of words: evidence for interactive neural processes. NeuroImage. 35 [PubMed]
Goard M, Dan Y. (2009). Basal forebrain activation enhances cortical coding of natural scenes. Nature neuroscience. 12 [PubMed]
HUBEL DH, HENSON CO, RUPERT A, GALAMBOS R. (1959). Attention units in the auditory cortex. Science (New York, N.Y.). 129 [PubMed]
Hangya B, Ranade SP, Lorenc M, Kepecs A. (2015). Central Cholinergic Neurons Are Rapidly Recruited by Reinforcement Feedback. Cell. 162 [PubMed]
Hasselmo ME, Bower JM. (1993). Acetylcholine and memory. Trends in neurosciences. 16 [PubMed]
Jaramillo S, Borges K, Zador AM. (2014). Auditory thalamus and auditory cortex are equally modulated by context during flexible categorization of sounds. The Journal of neuroscience : the official journal of the Society for Neuroscience. 34 [PubMed]
Kato HK, Gillet SN, Isaacson JS. (2015). Flexible Sensory Representations in Auditory Cortex Driven by Behavioral Relevance. Neuron. 88 [PubMed]
Kawai H, Lazar R, Metherate R. (2007). Nicotinic control of axon excitability regulates thalamocortical transmission. Nature neuroscience. 10 [PubMed]
Kepecs A, Fishell G. (2014). Interneuron cell types are fit to function. Nature. 505 [PubMed]
Kilgard MP, Merzenich MM. (1998). Cortical map reorganization enabled by nucleus basalis activity. Science (New York, N.Y.). 279 [PubMed]
Kruglikov I, Rudy B. (2008). Perisomatic GABA release and thalamocortical integration onto neocortical excitatory cells are regulated by neuromodulators. Neuron. 58 [PubMed]
Kuhlman SJ et al. (2013). A disinhibitory microcircuit initiates critical-period plasticity in the visual cortex. Nature. 501 [PubMed]
Lee S, Kruglikov I, Huang ZJ, Fishell G, Rudy B. (2013). A disinhibitory circuit mediates motor integration in the somatosensory cortex. Nature neuroscience. 16 [PubMed]
Leonard MK, Chang EF. (2014). Dynamic speech representations in the human temporal lobe. Trends in cognitive sciences. 18 [PubMed]
Letzkus JJ et al. (2011). A disinhibitory microcircuit for associative fear learning in the auditory cortex. Nature. 480 [PubMed]
Lin SC, Nicolelis MA. (2008). Neuronal ensemble bursting in the basal forebrain encodes salience irrespective of valence. Neuron. 59 [PubMed]
Lovett-Barron M et al. (2014). Dendritic inhibition in the hippocampus supports fear learning. Science (New York, N.Y.). 343 [PubMed]
Marlin BJ, Mitre M, D'amour JA, Chao MV, Froemke RC. (2015). Oxytocin enables maternal behaviour by balancing cortical inhibition. Nature. 520 [PubMed]
Mayse JD, Nelson GM, Avila I, Gallagher M, Lin SC. (2015). Basal forebrain neuronal inhibition enables rapid behavioral stopping. Nature neuroscience. 18 [PubMed]
McGinley MJ, David SV, McCormick DA. (2015). Cortical Membrane Potential Signature of Optimal States for Sensory Signal Detection. Neuron. 87 [PubMed]
Metherate R, Weinberger NM. (1990). Cholinergic modulation of responses to single tones produces tone-specific receptive field alterations in cat auditory cortex. Synapse (New York, N.Y.). 6 [PubMed]
Miller JM et al. (1972). Single cell activity in the auditory cortex of Rhesus monkeys: behavioral dependency. Science (New York, N.Y.). 177 [PubMed]
Niell CM, Stryker MP. (2010). Modulation of visual responses by behavioral state in mouse visual cortex. Neuron. 65 [PubMed]
Otazu GH, Tai LH, Yang Y, Zador AM. (2009). Engaging in an auditory task suppresses responses in auditory cortex. Nature neuroscience. 12 [PubMed]
Pi HJ et al. (2013). Cortical interneurons that specialize in disinhibitory control. Nature. 503 [PubMed]
Pinto L et al. (2013). Fast modulation of visual perception by basal forebrain cholinergic neurons. Nature neuroscience. 16 [PubMed]
Rodgers CC, DeWeese MR. (2014). Neural correlates of task switching in prefrontal cortex and primary auditory cortex in a novel stimulus selection task for rodents. Neuron. 82 [PubMed]
Rudy B, Fishell G, Lee S, Hjerling-Leffler J. (2011). Three groups of interneurons account for nearly 100% of neocortical GABAergic neurons. Developmental neurobiology. 71 [PubMed]
Schneider DM, Nelson A, Mooney R. (2014). A synaptic and circuit basis for corollary discharge in the auditory cortex. Nature. 513 [PubMed]
Tabossi P. (1988). Effects of context on the immediate interpretation of unambiguous nouns J. Exp. Psychol. Learn.. 14
Tan AY, Wehr M. (2009). Balanced tone-evoked synaptic excitation and inhibition in mouse auditory cortex. Neuroscience. 163 [PubMed]
Vogels TP, Abbott LF. (2009). Gating multiple signals through detailed balance of excitation and inhibition in spiking networks. Nature neuroscience. 12 [PubMed]
Volkov IO, Galazjuk AV. (1991). Formation of spike response to sound tones in cat auditory cortex neurons: interaction of excitatory and inhibitory effects. Neuroscience. 43 [PubMed]
Wehr M, Zador AM. (2003). Balanced inhibition underlies tuning and sharpens spike timing in auditory cortex. Nature. 426 [PubMed]
Williamson RS, Hancock KE, Shinn-Cunningham BG, Polley DB. (2015). Locomotion and Task Demands Differentially Modulate Thalamic Audiovisual Processing during Active Search. Current biology : CB. 25 [PubMed]
Xiang Z, Huguenard JR, Prince DA. (1998). Cholinergic switching within neocortical inhibitory networks. Science (New York, N.Y.). 281 [PubMed]
Xue M, Atallah BV, Scanziani M. (2014). Equalizing excitation-inhibition ratios across visual cortical neurons. Nature. 511 [PubMed]
Zhou M et al. (2014). Scaling down of balanced excitation and inhibition by active behavioral states in auditory cortex. Nature neuroscience. 17 [PubMed]
Linaro D, Ocker GK, Doiron B, Giugliano M. (2019). Correlation Transfer by Layer 5 Cortical Neurons Under Recreated Synaptic Inputs In Vitro. The Journal of neuroscience : the official journal of the Society for Neuroscience. 39 [PubMed]
Masse NY, Grant GD, Freedman DJ. (2018). Alleviating catastrophic forgetting using context-dependent gating and synaptic stabilization. Proceedings of the National Academy of Sciences of the United States of America. 115 [PubMed]