Registro:

Referencias:

• Alvarez-Buylla, A., Theelen, M., Nottebohm, F., Birth of projection neurons in the higher vocal center of the canary forebrain before, during and after song learning (1988) Proceedings of the National Academy of Sciences of the United States of America, 85, pp. 8722-8726
• Beckers, G.J.L., Peripheral mechanisms of vocalization in birds: a comparison with human speech (2013) Birdsong speech and language, pp. 399-422. , In: Bolhuis JL, Everaert M, eds.Cambridge: The MIT Press
• Bolhuis, J.J., Okanoya, K., Scharff, C., Twitter evolution: converging mechanisms in birdsong and human speech (2010) Nature Reviews Neuroscience, 11, pp. 747-759
• Brainard, M.S., The anterior forebrain pathway and vocal plasticity (2008) Neuroscience of birdsong, pp. 240-255. , In: Zeigler HP, Marler P, eds.Cambridge: Cambridge University Press
• Brainard, M.S., Doupe, A.J., Translating birdsong: songbirds as a model for basic and applied medical research (2013) Annual Review of Neuroscience, 36, pp. 489-517
• Brawn, T.P., Margoliash, D., A bird's eye view of sleep-dependent memory consolidation (2015) Current Topics in Behavioral Neuroscience, 25, pp. 207-237
• Brawn, T.P., Nusbaum, H.C., Margoliash, D., Sleep-dependent consolidation of auditory discrimination learning in adult starlings (2010) Journal of Neuroscience, 30, pp. 609-613
• Brennan, A.E., Smith, M.E., The decay of motor memories is independent of context change detection (2015) PLOS Computational Biology, 11
• Cooper, B.G., Goller, F., Physiological insights into the social-context-dependent changes in the rhythm of the song motor program (2006) Journal of Neurophysiology, 95, pp. 3798-3809
• Crandall, S.R., Adam, M., Kinnischtzke, A.K., Nick, T.A., HVC neural sleep activity increases with development and parallels nightly changes in song behavior (2007) Journal of Neurophysiology, 98, pp. 232-240
• Criscimagna-Hemminger, S.E., Shadmehr, R., Consolidation patterns of human motor-memory (2008) Journal of Neuroscience, 28, pp. 9610-9618
• Dave, A., Margoliash, D., Song replay during sleep and computational rules for sensorimotor vocal learning (2000) Science, 282, pp. 2250-2254
• Derégnaucourt, S., Mitra, P.P., Fehér, O., Pytte, C., Tchernichovski, O., How sleep affects the developmental learning of bird song (2005) Nature, 433, pp. 710-716
• Diekelmann, S., Born, J., The memory function of sleep (2010) Nature Reviews Neuroscience, 11, pp. 114-126
• Dragoi, G., Tonegawa, S., Preplay of future place cell sequences by hippocampal cellular assemblies (2011) Nature, 469, pp. 397-401
• Dragoi, G., Tonegawa, S., Distinct preplay of multiple novel spatial experiences in the rat (2013) Proceedings of the National Academy of Sciences of the United States of America, 110, pp. 9100-9105
• Does the hippocampus preplay memories? (2015) Nature Neurosciences, 18, pp. 1701-1702
• Elemans, C.P.H., Mead, A.F., Rome, L.C., Goller, F., Superfast vocal muscles control song production in songbirds (2008) PLOS ONE, 3
• Euston, D.R., Tatsuno, M., McNaughton, B.L., Fast-forward playback of recent memory sequences in prefrontal cortex during sleep (2007) Science, 318, pp. 1147-1150
• Fee, M.S., The role of efference copy in striatal learning (2014) Current Opinion in Neurobi-ology, 25, pp. 194-200
• Franz, M., Goller, F., Respiratory units of motor production and song imitation in the zebra finch (2002) Journal of Neurobiology, 51, pp. 129-141
• Franz, M., Goller, F., Respiratory patterns and oxygen consumption in singing zebra finches (2003) Journal of Experimental Biology, 206, pp. 967-978
• Giret, N., Edeline, J.-M., Del Negro, C., Neural mechanisms of vocal imitation: the role of sleep replay in shaping mirror neurons (2017) Neuroscience & Biobehavioral Reviews, 77, pp. 58-73
• Glaze, C.M., Troyer, T.W., Temporal structure in zebra finch song: implications for motor coding (2006) Journal of Neuroscience, 26, pp. 991-1005
• Goller, F., Cooper, B.G., Peripheral motor dynamics of song production in the zebra finch (2004) Annals New York Academy of Science, 1016, pp. 130-152
• Goller, F., Cooper, B.G., Peripheral mechanisms of sensorimotor integration during singing (2008) Neuroscience of birdsong, pp. 99-114. , In: Zeigler HP, Marler P, eds.Cambridge: Cambridge University Press
• Goller, F., Riede, T., Integrative physiology of fundamental frequency control in birds (2013) Journal of Physiology, 107, pp. 230-242
• Grosmark, A.D., Buzsáki, G., Diversity in neural firing dynamics supports both rigid and learned hippocampal sequences (2016) Science, 351, pp. 1440-1443
• Hahnloser, R.H.R., Kozhevnikov, A.A., Fee, M.S., An ultra-sparse code underlies the generation of neural sequences in a songbird (2002) Nature, 419, pp. 65-70
• Hahnloser, R.H.R., Kozhevnikov, A.A., Fee, M.S., Sleep-related neural activity in a premotor and a basal-ganglia pathway of the songbird (2006) Journal of Neurophysiology, 96, pp. 794-812
• Hupbach, A., Gomez, R.L., Bootzin, R.R., Nadel, L., Nap-dependent learning in infants (2009) Developmental Science, 12, pp. 1007-1012
• Jensen, K.K., Cooper, B.G., Larsen, O.N., Goller, F., Songbirds use pulse tone register in two voices to generate low frequency sound (2007) Proceedings of the Royal Society B: Biological Sciences, 274, pp. 2703-2710
• Kitago, T., Ryan, S.L., Mazzoni, P., Krakauer, J.W., Haith, A.M., Unlearning versus savings in visuomotor adaptation: comparing effects of washout, passage of time, and removal of errors on motor memory (2013) Frontiers in Human Neuroscience, 7, p. 307
• Korman, M., Raz, N., Flash, T., Karni, A., Multiple shifts in the representation of a motor sequence during the acquisition of skilled performance (2003) Proceedings of the National Academy of Sciences of the United States of America, 100, pp. 12492-12497
• Maquet, P., The role of sleep in learning and memory (2001) Science, 294, pp. 1048-1052
• Margoliash, D., Song learning and sleep (2005) Nature Neuroscience, 8, pp. 546-548
• Margoliash, D., Schmidt, M.F., Sleep, off-line processing, and vocal learning (2010) Brain & Language, 115, pp. 45-58
• Méndez, J.M., Dall'Asén, A.G., Cooper, B.G., Goller, F., Acquisition of an acoustic template leads to refinement of song motor gestures (2010) Journal of Neurophysiology, 104, pp. 984-993
• Mooney, R., Neurobiology of song learning (2009) Current Opinion in Neurobiology, 19, pp. 654-660
• Nottebohm, F., The discovery of replaceable neurons (2008) The neuroscience of birdsong, pp. 425-448. , In: Ziegler HP, Marler P, eds.Cambridge: Cambridge University Press
• Oberweger, K., Goller, F., The metabolic cost of birdsong production (2001) Journal of Experimental Biology, 204, pp. 3379-3388
• Ölveczky, B.P., Otchy, T.M., Goldberg, J.H., Aronov, D., Fee, M.S., Changes in the neural control of a complex motor sequence during learning (2011) Journal of Neurophysiology, 106, pp. 386-397
• Orban, P., Rauch, G., Balteau, E., Degueldre, C., Luxen, A., Maquet, P., Peigneux, P., Sleep after special learning promotes covert reorganization of brain activity (2006) Proceedings of the National Academy of Sciences of the United States of America, 103, pp. 7124-7129
• Peyrache, A., Khamassi, M., Benchenane, K., Wiener, S.I., Battaglia, F.P., Replay of rule-learning related neural patterns in the prefrontal cortex during sleep (2009) Nature Neuroscience, 12, pp. 919-926
• Prather, J.F., Peters, S., Nowicki, S., Mooney, R., Precise auditory-vocal mirroring in neurons for learned vocal communication (2008) Nature, 451, pp. 305-310
• Pytte, C.L., George, S., Korman, S., David, E., Bogdan, D., Kirn, J.R., Adult neurogenesis is associated with the maintenance of a stereotyped, learned motor behavior (2012) Journal of Neuroscience, 32, pp. 7052-7057
• Rauske, P.L., Chi, Z., Dave, A.S., Margoliash, D., Neuronal stability and drift across periods of sleep: premotor activity patterns in a vocal control nucleus of adult zebra finches (2010) Journal of Neuroscience, 30, pp. 2783-2794
• Ribeiro, S., Gervasoni, D., Soares, E.S., Zhou, Y., Lin, S.-C., Pantoja, J., Lavine, M., Nicolelis, M.A.L., Long-lasting novelty-induced neuronal reverberation during slow-wave sleep in multiple forebrain areas (2004) PLOS Biology, 2, pp. 126-137
• Rickard, T.C., Cai, D.J., Rieth, C.A., Jones, J., Ard, M.C., Sleep does not enhance motor sequence learning (2008) Journal of Experimental Psychology: Learning, Memory, and Cognition, 34, pp. 834-842
• Riede, T., Goller, F., Peripheral mechanisms for vocal production in birds-differences and similarities to human speech and singing (2010) Brain & Language, 115, pp. 69-80
• Roberts, T.F., Klein, M.E., Kubke, M.F., Wild, J.M., Mooney, R., Telencephalic neurons monosynaptically link brainstem and forebrain premotor networks necessary for song (2008) Journal of Neuroscience, 28, pp. 3479-3489
• Schmidt, M.F., McLean, J., Goller, F., Breathing and vocal control: the respiratory system as both a driver and a target of telencephalic vocal motor circuits in birds (2012) Experimental Physiology, 97, pp. 455-461
• Shank, S.S., Margoliash, D., Sleep and sensorimotor integration during early vocal learning in a songbird (2009) Nature, 458, pp. 73-77
• Silva, D., Feng, T., Foster, D.J., Trajectory events across hippocampal place cells require previous experience (2015) Nature Neuroscience, 18, pp. 1772-1779
• Skaggs, W.E., McNaughton, B.L., Replay of neuronal firing sequences in rat hippocampus during sleep following spatial experience (1996) Science, 271, pp. 1870-1873
• Stickgold, R., Sleep-dependent memory consolidation (2005) Nature, 437 (7063), pp. 1271-1278
• Suthers, R.A., Zollinger, S.A., From brain to song: the vocal organ and vocal tract (2008) Neuroscience of birdsong, pp. 78-98. , In: Zeigler HP, Marler P, eds.Cambridge: Cambridge University Press
• Tchernichovski, O., Mitra, P.P., Lints, T., Nottebohm, F., Dynamics of the vocal imitation process: how a zebra finch learns its song (2001) Science, 291, pp. 2564-2569
• Tononi, G., Cirelli, C., Sleep and the price of plasticity: from synaptic and cellular homeostasis to memory consolidation and integration (2014) Neuron, 81, pp. 12-34
• Troyer, T.W., Doupe, A.J., An associational model of birdsong sensorimotor learning I Efference copy and the learning of song syllables (2000) Journal of Neurophysiology, 84, pp. 1204-1223
• Uchida, A.M., Meyers, R.A., Cooper, B.G., Goller, F., Fibre architecture and song activation rates of syringeal muscles are not lateralized in the European starling (2010) Journal of Experimental Biology, 213, pp. 1069-1078
• Vaswani, P.A., Shadmehr, R., Decay of motor memories in absence of error (2013) Journal of Neuroscience, 33, pp. 7700-7709
• Vicario, D.S., Contributions of syringeal muscles to respiration and vocalization in the zebra finch (1991) Journal of Neurobiology, 22, pp. 63-73
• Vicario, D.S., Organization of zebra finch song control system: functional organization of outputs from nucleus robustus archistriatalis (1991) Journal of Comparative Neurology, 309, pp. 486-494
• Williams, H., Birdsong and singing behavior (2008) Neuroscience of birdsong, pp. 32-49. , In: Zeigler HP, Marler P, eds.Cambridge: Cambridge University Press
• Wilson, M.A., McNaughton, B.L., Reactivation of hippocampal ensemble memories during sleep (1994) Science, 265, pp. 676-679
• Wood, W.E., Osseward, P.J., Roseberry, T.K., Perkel, D.J., A daily oscillation in the fundamental frequency and amplitude of harmonic syllables of zebra finch song (2013) PLOS ONE, 8
• Yanagihara, S., Hessler, N.A., Phasic basal ganglia activity associated with highgamma oscillation during sleep in a songbird (2012) Journal of Neurophysiology, 107, pp. 424-432
• Yang, G., Lai, C.S.W., Cichon, J., Ma, L., Li, W., Gan, W.-B., Sleep promotes branchspecific formation of dendritic spines after learning (2014) Science, 344, pp. 1173-1178
• Zann, R.A., (1996) The zebra finch: a synthesis of field and laboratory studies, , Oxford: Oxford University Press

Citas:

---------- APA ----------

---------- CHICAGO ----------

---------- MLA ----------

---------- VANCOUVER ----------