READING LIST 201--Winter 2006
(1) Introduction/Neurons
1.1--Kandel, E.H., J.H. Schwartz, and T.M. Jessel, eds., (1992) Principles of Neural Science, Elsevier, 3rd ed., Chapters 6, 7, 8, 9, 11, and Appendix A.
1.2--Shepherd, G.M. (1999) Electrotonic properties of axons and dendrites. In M.J. Zigmond, F.E. Bloom, S.C. Landis, J.L. Roberts and L.R. Squire (eds.) Fundamental Neuroscience. Academic Press, pp. 107-127.
1.3--Douglas, R., H. Markram, and K. Martin (2004) Neocortex. In G.M. Shepherd (ed.), Synaptic Organization In the Brain, Oxford, pp. 499-558.
1.4--Callaway, J.S.(1998) Local circuits in primary visual cortex of the macaque monkey. Annual Review of Neuroscience 21:47-74.
(2) Models/LTP
2.1--Hopfield, J.J. (1984) Neurons with graded response have collective computational properties like those of two-state neurons. Proceedings of the National Academy of Science 81:3088-3092.
2.2--Linsker, R. (1986) From basic network principles to neural architecture: Emergence of spatial-opponent cells. Proceedings of the National Academy of Science 83:7508- 7512.
2.3--Linsker, R. (1986) From basic network principles to neural architecture: Emergence of orientation-selective cells. Proceedings of the National Academy of Science 83:8390-8394.
2.3a--Sereno, M.I. and M.E. Sereno (1991) Learning to see rotation and dilation with a Hebb rule. In R.P. Lippmann, J.E. Moody, and D.S. Touretzky (eds.), Advances in Neural Information Processing Systems 3. Morgan Kaufmann Publishers, pp. 320-326.
2.4--Wilson, M.A. and J.M. Bower (1989) The simulation of large-scale neural networks. In C. Koch and I. Segev (eds.), Methods in Neuronal Modeling. MIT Press, pp. 291- 331.
2.5--Bi, G.-Q. and M.-M. Poo (1998) Synaptic modifications in cultured hippocampal neurons: dependence on spike timing, synaptic strength, and postsynaptic cell type. Journal of Neuroscience 18:10464-10472.
2.6--Yao, H. and Y. Dan (2001) Stimulus timing-dependent plasticity in cortical processing of orientation. Neuron 32:315-322.
2.7--Turrigiano, G.G., K.R. Leslie, N.S. Desai, L.C. Rutherford, and S.B. Nelson (1998) Activity-dependent scaling of quantal amplitude in neocortical neurons. Nature 391:892-896.
2.8--Larkum, M.E., J.J. Zhu, and B. Sakmann (1999) A new cellular mechanism for coupling inputs arriving at different cortical layers. Nature 398:338-341.
2.9--Arieli, A., A. Sterkin, A. Grinvald, and A. Aertsen (1996) Dynamics of ongoing activity: explanation of the large variability in evoked cortical responses. Science 273:1868-1871.
2.10--Martina, M., I. Vida, and P. Jonas (2000) Distal Initiation and Active Propagation of Action Potentials in Interneuron Dendrites. Science 287:295-300.
2.11--Maletic-Savatic, M., R. Malinow, K. Svoboda (1999) Rapid dendritic morphogenesis in CA1 hippocampal dendrites induced by synaptic activity. Science 283:1923-1927.
(3) Development
3.1--Sereno, M.I. (1994) The brain in two pages.
3.2--O'Leary, D.D.M. (1989) Do cortical areas emerge from a protocortex? Trends in Neurosciences 12:400-406.
3.3--McLaughlin, T. and D.M. O'Leary (2005) Molecular gradients and development of retinotopic maps. Annual Review of Neuroscience 28:327-355.
3.4--Ghosh, A., A. Antonioni, S.K. McConnell, and C.J Shatz (1990) Requirement for subplate neurons in the formation of thalamocortical connections. Nature 347:179-181.
3.5--Hahm, J.-O, R.B. Langdon, and M. Sur (1991) Disruption of retinogeniculate afferent segregation by antagonists to NMDA receptors. Nature 351:568-570.
3.6--Williams, R.W., D. Hogan and P.E. Garraghty (1994) Target recognition and visual maps in the thalamus of achiasmatic dogs. Nature 367:637-639.
3.7--Hatten, M.E. (1999) Central nervous system neuronal migration. Annual Review of Neurosciences 22:511-539.
3.8--Grove, E.A. and T. Fukuchi-Shimogori (2003) Generating the cerebral cortical area map. Annual Review of Neuroscience 26:335-380.
3.9--Rhinn, M. and M. Brand (2001) The midbrain-hindbrain boundary organizer. Current Opinion in Neurobiology 11:34-42.
(4) Visual System
4.1--Sereno, M.I. (1988) The visual system. In W. von Seelen, G. Shaw, and U.M. Leinhos (eds.), Organization of Neural Networks. Weinheim: VCH Verlagsgesellschaft, pp. 167-184.
4.2--Sereno, M.I. and J.M. Allman (1991) Cortical visual areas in mammals. In A.G. Leventhal (ed.) The Neural Basis of Visual Function. Macmillan, pp. 160-172.
4.3--Felleman, D.J. and D.C. Van Essen (1991) Distributed hierarchical processing in the primate cerebral cortex. Cerebral Cortex 1:1-47.
4.4--Ohzawa, I. (1998) Mechanisms of stereoscopic vision: the disparity energy model. Current Opinion in Neurobiology 8:509-515.
4.5--Sincich, L.C. and J.C. Horton (2005) The circuitry of V1 and V2 intergration of color, form, and motion. Annual Review of Neuroscience 28:303-326.
4.6--[deleted]
4.7--Sereno, M.I., C.T. McDonald, and J.M. Allman (1994) Analysis of retinotopic maps in extrastriate cortex. Cerebral Cortex 4:601-620.
4.8--Haenny, P.E., J.H.R. Maunsell, and P.H. Schiller (1988) State dependent activity in monkey visual cortex. II. Retinal and extraretinal factors. Experimental Brain Research 69:245-259.
4.9--Desimone, R. and J. Duncan (1995) Neural mechanisms of selective visual attention. Annual Review of Neuroscience 18:193-222.
4.10--Colby, C.L. and M.E. Goldberg (1999) Space and attention in parietal cortex. Annual Review of Neurosciences 22:319-349.
4.11--Tanaka, K. (1998) Representation of visual motion in the extrastriate visual cortex. In T. Watanabe (ed.), High-level motion processing. MIT Press, pp. 295-313.
4.12--Sereno, A.B. and J.H.R. Maunsell (1998) Shape selectivity in primate lateral intraparietal cortex. Nature 395:500-503.
4.13--Logothetis NK; Pauls J. (1995) Psychophysical and physiological evidence for viewer-centered object representations in the primate. Cerebral Cortex 5:270-288.
4.14--Wang, G., M. Tanifuji, and K. Tanaka (1998) Functional architecture in monkey inferotemporal cortex revealed by in vivo optical imaging. Neuroscience Research 32:33-46.
4.15--Yabuta, N.H., A. Sawatari, and E.M. Callaway (2001) Two functional channels from primary visual cortex to dorsal visual cortical areas. Science 292:297-300.
4.16--Rolls, E.T., N.C. Aggelopoulos, and F. Zheng (2003) The receptive fields of inferior temporal cortex neurons in natural scenes. Journal of Neuroscience 23:339-348.
(5) Somatosensory System
5.1--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 149-164.
5.2--Iwamura, Y. (1998) Hierarchical somatosensory processing. Current Opinion in Neurobiology 8:522-528.
5.3--Buonomano, D.V. and M.M. Merzenich (1998) Cortical plasticity: from synapses to maps. Annual Review of Neuroscience 21:149-186.
5.4--Pons, T.P., P.E. Garraghty, A.K. Ommaya, J.H. Kaas, E. Taub, and M. Mishkin (1991) Massive cortical reorganization after sensory deafferentation in adult macaques. Science 252: 1857-1860.
5.5--Calford, M.B., and R. Tweedale (1990) Interhemispheric transfer of plasticity in the cerebral cortex. Science 249:805-807.
5.6--Grajski, K.A. and M.M. Merzenich (1990) Hebb-type dynamics is sufficient to account for the inverse magnification rule in cortical somatotopy. Neural Computation 2:71-84.
5.7--Kaas, J.H. (2000) The reorganization of sensory and motor maps after injury in aadult mammals. In M.S. Gazzaniga, ed., The New Cognitive Neurosciences, MIT Press, pp. 223-236.
(6) Auditory System
6.1--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 165-179.
6.2--Suga, N, (1988) Auditory neuroethology and speech processing: complex-sound processing by combination-sensitive neurons. In G.M. Edelman, W.E. Gall, and W.M Cowan (eds.), Auditory Function: Neurobiological Bases of Hearing. John Wiley and Sons, pp. 679- 720.
6.3--Konishi, M., T.T. Takahashi, H. Wagner, W.E. Sullivan, and C.E. Carr (1988) Neurophysiological and anatomical substrates of sound localization in the the owl. In G.M. Edelman, W.E. Gall, and W.M Cowan (eds.), Auditory Function: Neurobiological Bases of Hearing. John Wiley and Sons, pp. 721-745.
6.4--Kulkarni, A. and H.S. Colburn (1998) Role of spectral detail in sound-source localization. Nature 396:747-749.
6.4--Rauschecker, J.P. (1998) Cortical processing of complex sounds. Current Opinion in Neurobiology 8:516-521.
6.5--deCharms, R.C., D.T. Blake, and M.M. Merzenich (1998) Optimizing sound features for cortical neurons. Science 280:1439-1443.
(7) Motor System
7.1--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 247-278.
7.2--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 185-196.
7.3--Sparks, D.L. and R. Hartwich-Young (1989) The deep layers of the superior colliculus. In R.H. Wurtz and M.E. Goldberg (eds.) The Neurobiology of Saccadic Eye Movements. Elsevier, pp. 213-255.
7.4--Wurtz, R.H. and D.P. Munoz (1995) Role of monkeys superior colliculus in control of saccades and fixation. In M.S. Gazzaniga (ed.), The Cognitive Neurosciences, MIT Press, pp. 533-548.
7.5--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 221-236.
7.6--Thompson, R.F. and D.J. Krupa (1994) Organization of memory traces in the mammalian brain. Annual Review of Neuroscience 17:519-549.
7.7--Mink, J.W. (1999) Basal ganglia. In M.J. Zigmond, F.E. Bloom, S.C. Landis, J.L. Roberts and L.R. Squire (eds.) Fundamental Neuroscience. Academic Press, pp. 951- 972.
7.8--Hoover, J.E. and P.L. Strick (1993) Multiple output channels in the basal ganglia. Science 259:819-821.
7.9a--Clower, D.M., R.P. Dum, P.L. Strick (2005) Basal ganglia and cerebellar inputs to 'AIP'. Cerebral Cortex 15:913-920.
7.9b--Kaji, R., R. Urushihara, N. Murase, H. Shimazu, S. Goto (2005) bnormal sensory gating in basal ganglia disorders. Journal of Neurology 252 [Suppl 4]:IV/13-IV/16.
7.10--Carpenter, A.F., A.P. Georgopoulos and G. Pellizzer (1999) Motor cortical encoding of serial order in a context-recall task. Science 283:1752-1757.
7.11--Rizzolatti, G., L. Fogassi, and V. Gallese (2000) Cortical mechanisms subserving object grasping and action recognition: A new view on the cortical motor functions. In M.S. Gazzaniga, ed., The New Cognitive Neurosciences, MIT Press, pp. 539-552.
(8) Limbic System
8.1--Nieuwenhuys, R., J. Voogd, and C. van Huizen (1988) The Human Central Nervous System. Springer-Verlag, pp. 293-309, 323-344.
8.2--Muller, R.U., J.L. Kubie, and J.B. Ranck (1987) Spatial firing patterns of hippocampal complex-spike cells in a fixed environment. Journal of Neuroscience 7:1935-1950.
8.3--Muller, R.U. and J.L. Kubie (1987) The effects of changes in the environment on the spatial firing of hippocampal complex-spike cells. Journal of Neuroscience 7:1951- 1968.
8.4--Taube, J.S., R.U. Muller, and J.B. Ranck (1990) Head-direction cells recorded from the postsubiculum in freely moving rats. I. description and quantitative analysis. Journal of Neuroscience 10:420-435.
8.5--Hafting, >, Fyhn, S. Molden, M.-B. Moser, E.I. Moser (2005) Microstructure of a spatial map in the entorhinal cortex. Nature 436:801-806.
8.6--Muller, R.U., J.B. Ranck Jr and J.S. Taube (1996) Head direction cells: properties and functional significance. Current Opinion in Neurobiology 6:196-206.
8.7--Zugaro, M.B., A Berthoz, and S.I. Wiener (2001) Background, but not foreground, spatial cues are taken as references for head direction responses by rat anterodorsal thalamus neurons. Journal of Neuroscience 21: RC 154.
8.8--Yoganarasimha, D. and J.J. Knierim (2004) Coupling between place cells and head direction cells during relative translations and rotation of distal landmarks. Experimental Brain Research (in press).
8.9--Fyhn M, Molden S, Witter MP, Moser EI, Moser MB (2004) Spatial representation in the entorhinal cortex. Science 21: 305:1258-1264.
(9) Evolution of Language
9.1--Kaas, J.H. and T. Preuss (2003) Human Brain Evolution. In L.R. Squire, F. Bloom, S. McConnell, J.L. Roberts, N. Spitzer, and M.J. Zigmond (eds.) Fundamental Neuroscience. Academic Press, pp. 1283-1311.
9.2--Sereno, M.I. (1998) Brain mapping in animals and humans. Current Opinion in Neurobiology 8:188-194.
9.3--Sereno, M.I. and Tootell, R.B.H. (2005) From monkeys to humans: what do we now know about brain homologies?. Current Opinion in Neurobiology (in press).
9.4--Orban GA, Van Essen D, Vanduffel W (2004) Comparative mapping of higher visual areas in monkeys and humans. Trends Cog Sci, 8:315-324.
9.5--Savage-Rumbaugh, S.S., K. McDonald, R.A. Sevcik, W.D. Hopkins, and E. Rubert (1986) Spontaneous symbol acquisition and communicative use by pygmy chimpanzees (Pan paniscus) Journal of Experimental Psychology: General 115:211- 235.
9.6--Sereno, M.I. (1990) Language and the primate brain. CRL Newsletter 4:4.
9.7--Doupe, A.J. and P.K. Kuhl (1999) Birdsong and human speech. Annual Review of Neuroscience 22:567-631.
9.8--Diamond, J. (2004) The astonishing micropygmies. Science 306:2047-2048.
9.9--Sereno, M.I. (2005) Language origins without the semantic urge. Cogsci Online Journal 3:1-12.
9.10--Falk, D., C. Hildebolt, K. Smith, M.H. Norwood, T. Sutikna, P. Brown, E.W. Saptomo, B. Brunsden, F. Prior (2004) The brain of LB1, Homo floresiensis. Science 308:242-245.
(10) Functional Imaging
10.1--Tootell R.B., N.K. Hadjikhani, W. Vanduffel, A.K. Liu, J.D. Mendola, M.I. Sereno, A.M. Dale (1998) Functional analysis of primary visual cortex (V1) in humans. Proceedings of the National Academy of Sciences USA 95:811-817.
10.2--Tootell, R.B.H., J.D. Mendola, N.K. Hadjikhani, P.J. Ledden, A.K. Liu, J.B. Reppas, M.I. Sereno, and A.M. Dale (1997) Functional analysis of V3A and related areas in human visual cortex. Journal of Neuroscience 17:1060-7078.
10.3--Hadjikhani, N, A.K. Liu, A.M. Dale, P. Cavanagh et al. (1998) Retinotopy and color sensitivity in human visual cortical area V8. Nature Neuroscience 1:235-241.
10.4--Sereno MI, Pitzalis S, Martinez A (2001) Mapping of contralateral space in retinotopic coordinates by a parietal cortical area in humans. Science 294:1350-1353.
10.5--Potter, M.C., J.F. Kroll, B. Yachsel, E. Carpenter, and J. Sherman (1986) Pictures in sentences: understanding without words. Journal of Experimental Psychology: General 115:281-294.
10.6--Jackendoff, R. The connection between language and vision, Chapter 10 in Consciousness and the Computational Mind. MIT Press, pp. 193-212.
10.7--Talavage, T.M., M.I. Sereno, J.R. Melcher, P.J. Ledden, B.R. Rosen and A.M. Dale (2004) Tonotopic organization in human auditory cortex revealed by progressions of frequency sensitivity. Journal of Neurophysiology 91:1282-1296.
10.8--Puce, A., T. Allison, M. Asgari, J.C. Gore and G. McCarthy (1996) Differential sensitivity of human visual cortex to faces, letterstrings, and textures: a functional magnetic resonance imaging study. Journal of Neuroscience 16:5205-5215.
10.9--Zatorre, R.J., E. Meyer, A. Gjedde, and A.C. Evans (1996) PET studies of phonetic processing of speech: review, replication, and reanalysis. Cerebral Cortex 6:21-30.
10.10--Fiez, J.A., M.E. Raichle, D.A. Balota, P. Tallal, and S.E. Petersen (1996) PET activation of posterior temporal regions during auditory word presentation and verb generation. Cerebral Cortex 6:1-10.
10.11--Binder JR, Frost JA, Hammeke TA, Bellgowan PSAF, Springer JA, Jaufman JN, Possing ET (2000) Human temporal lobe activation by speech and nonspeech sounds. Cerebral Cortex 10:512-528.
10.12--Bookheimer S (2002) Functional MRI of language: new approaches to understanding the cortical organization of semantic processing. Annual Reviews of Neuroscience 25:151-188.