References

Akerman, C. J., Smyth, D., and Thompson, I. D. 2002. Visual experience before eye-opening and the development of the retinogeniculate pathway. Neuron 36, 869-879. Ascher, D. and Grzywacz, N. M. 2000. A Bayesian model for the measurement of visual velocity. Vision Res. 40, 3427-3434. Attardi, D. G. and Sperry, R. W. 1963. Preferential selection of central pathways by regenerating optic fibers. Exp. Neurol. 7, 46-64.

Barlow, H. B. and Levick, W. R. 1965. The mechanism of direc-tionally selective units in rabbit's retina. J. Physiol. 78, 477-1450.

Bavelier, D. and Neville, H. J. 2002. Cross-modal plasticity:

Where and how? Nat. Rev. Neurosci. 3, 443-452. Bekirov, I. H., Needleman, L., Zhang, W., and Benson, D. L. 2002. Identification and localization of multiple classic cad-herins in developing rat limbic system. Neuroscience 115, 213-227.

Bishop, K. M., Goudreau, G., and O'Leary, D. D. M. 2000. Regulation of area identity in the mammalian neocortex by Emx2 and Pax6. Science 288, 344-349. Borst, A. and Egelhaaf, M. 1989. Principles of visual motion detection. Trends Neurosci. 12, 297-306. Bronchti, G., Heil, P., Scheich, H., and Wollberg, Z. 1989. Auditory pathway and auditory activation of primary visual targets in the blind mole rat (Spalax ehrenbergi). I: 2-Deoxyglucose study of subcortical centers. J. Comp. Neurol. 284, 253-274.

Bronchti, G., Rado, R., Terkel, J., and Wollberg, Z. 1991. Retinal projections in the blind mole rat: A WGA-HRP tracing study of a natural degeneration. Dev. Brain Res. 58, 159-170. Bronchti, G., Heil, P., Sadka, R., Hess, A., Scheich, H., and Wollberg, Z. 2002. Auditory activation of 'visual' cortical areas in the blind mole rat (Spalax ehrenbergi). J. Comp. Neurol. 16, 311-329. Brown, A. P. A., Yates, P. A., Burrola, P. D., et al. 2000. Topographic mapping from the retina to the midbrain is controlled by relative but not absolute levels of EphA receptor signaling. Neuron 102, 77-88.

Callaway, E. M. and Katz, L. C. 1990. Emergence and refinement of clustered horizontal connections in cat striate cortex. J. Neurosci. 10, 1134-1153.

Callaway, E. M. and Katz, L. C. 1991. Effects of binocular deprivation on the development of clustered horizontal connections in cat striate cortex. Proc. Natl. Acad. Sci. USA 88, 745-749.

Caric, D., Gooday, D., and Price, D. J. 1997. Determination of the migratory capacity of embryonic cortical cells lacking the transcription factor Pax-6. Development 124, 5087.

Catalano, S. M. and Shatz, C. J. 1998. Activity-dependent cortical target selection by thalamic axons. Science 281, 599-1562.

Caviness, V. S., Jr., Takahashi, T., and Nowakowski, R. S. 1995. Numbers, time and neocortical neuronogenesis: A general developmental and evolutionary model. Trends Neurosci. 18, 379-383.

Cheng, H. J., Nakamoto, M., Bergemann, A. D., and Flanagan, J. G. 1995. Complementary gradients in expression and binding of ELF-1 and Mek 4 in development of the topographic retinotectal projection map. Cell 82, 371-381.

Ciossek, T., Monschau, B., and Drescher, U. 1998. Eph receptor-ligand interactions are necessary for guidance of retinal ganglion cell axons in vitro. Eur J. Neurosci. 10, 1574.

Cohen, L. G., Celnik, P., Pascual-Leone, A., et al. 1997. Functional relevance of cross-modal plasticity in blind humans. Nature 389, 180-186.

Constantine-Paton, M. and Cline, H. T. 1998. LTP and activity-dependent synaptogenesis: The more alike they are, the more different they become. Curr. Opin. Neurobiol. 8, 139-148.

Crair, M. C. 1999. Neuronal activity during development: Permissive or instructive? Curr. Opin. Neurobiol. 9, 88-99.

Crandall, J. E. and Caviness, V. S. 1984. Thalamocortical connections in newborn mice. J. Comp. Neurol. 228, 542-556.

Donoghue, M. J. and Rakic, P. 1999. Molecular gradients and compartments in the embryonic primate cerebral cortex. Cereb. Cortex 9, 586-600.

Drescher, U., Bonhoeffer, F., and Müller, B. K. 1997. The Eph family in retinal axon guidance. Curr. Opin. Neurobiol. 7, 75-80.

Felleman, D. J. and Van Essen, D. C. 1991. Distributed hierarchical processing in the primate cerebral cortex. Cereb. Cortex 1, 1-47.

Feng, J. Z. and Brugge, J. F. 1983. Postnatal development of auditory callosal connections in the kitten. J. Comp. Neurol. 214, 416-426.

Finlay, B. L. and Pallas, S. L. 1989. Control of cell number in the developing mammalian visual system. Prog. Neurobiol. 32, 207-234.

Finlay, B. L. and Slattery, M. 1983. Local differences in the amount of early cell death in neocortex predict adult local specializations. Science 219, 1349-1351.

Finlay, B. L., Schneps, S. E., and Schneider, G. E. 1979. Orderly compression of the retinotectal projection following partial tectal ablations in the newborn hamster. Nature 280, 153-154.

Finney, E. M., Fine, I., and Dobkins, K. R. 2001. Visual stimuli activate auditory cortex in the deaf. Nat. Neurosci. 4, 1171-1173.

Flanagan, J. G. and Vanderhaeghen, P. 1998. The ephrins and Eph receptors in neural development. Annu. Rev. Neurosci. 21, 309-345.

Forrest, B. and Gross, P. R. 2004. Creationism's Trojan Horse: The Wedge of Intelligent Design. Oxford University Press.

Frisen, J., Yates, P. A., McLaughlin, T., Friedman, G. C., O'Leary, D. D. M., and Barbacid, M. 1998. Ephrin-A5 (AL-1/RAGS) is essential for proper retinal axon guidance and topographic mapping in the mammalian visual system. Neuron 20, 235-243.

Frost, D. O. 1981. Orderly anomalous retinal projections to the medial geniculate, ventrobasal and lateral posterior nuclei. J. Comp. Neurol. 203, 227-256.

Frost, D. O., Boire, D., Gingras, G., and Ptito, M. 2000. Surgically created neural pathways mediate visual pattern discrimination. Proc. Natl. Acad. Sci. USA 97,11068-11073.

Fukuchi-Shimogori, T. and Grove, E. A. 2001. Neocortex patterning by the secreted signaling molecule FGF8. Science 294, 1071-1074.

Fukuchi-Shimogori, T. and Grove, E. A. 2003. Emx2 patterns the neocortex by regulating FGF positional signaling. Nat. Neurosci. 6, 825-831.

Gao, W.-J. and Pallas, S. L. 1999. Cross-modal reorganization of horizontal connectivity in auditory cortex without altering thalamocortical projections. J. Neurosci. 19, 7940-7950.

Gao, W.-J., Moore, D. R., and Pallas, S. L. 1999a. Bilateral cochlear ablation in neonatal ferrets prevents refinement of horizontal connectivity in primary auditory cortex. Soc. Neurosci. Abstr. 25, 1771.

Gao, W.-J., Newman, D. E., Wormington, A. B., and Pallas, S. L. 1999b. Development of inhibitory circuitry in visual and auditory cortex of postnatal ferrets: Immunocytochemical localization of GABAergic neurons. J. Comp. Neurol. 409, 261-273.

Gao, W.-J., Power, J. L., Misra, V., and Pallas, S. L. 2000. Cross-modal alteration of inhibitory circuitry in primary auditory cortex. Soc. Neurosci. Abstr. 26, 1608.

Garel, S., Yun, K., Grosschedl, R., and Rubenstein, J. L. 2002. The early topography of thalamocortical projections is shifted in Ebf1 and Dlx1/2 mutant mice. Development 129, 5621-5634.

Garel, S., Huffman, K. J., and Rubenstein, J. L. 2003. Molecular regionalization of the neocortex is disrupted in Fgf8 hypo-morphic mutants. Development 130, 1903-1914.

Ghosh, A., Antonini, A., McConnell, S. K., and Shatz, C. J. 1990. Requirement for subplate neurons in the formation of thalamocortical connections. Nature 347, 179-181.

Gil, O. D., Needleman, L., and Huntley, G. W. 2002. Developmental patterns of cadherin expression and localization in relation to compartmentalized thalamocortical terminations in rat barrel cortex. J. Comp. Neurol. 453, 372-388.

Goodhill, G. J. and Richards, L. J. 1999. Retinotectal maps: Molecules, models and misplaced data. Trends Neurosci. 22, 529-534.

Grove, E. A. and Fukuchi-Shimogori, T. 2003. Generating the cerebral cortical area map. Annu. Rev. Neurosci. 26, 355-380.

Hansen, M. J., Dallal, G. E., and Flanagan, J. G. 2004. Retinal axon response to ephrin-As shows a graded, concentration-dependent transition from growth promotion to inhibition. Neuron 42, 717-730.

Hebb, D. O. 1949. The Organization of Behavior. Wiley.

Hollyday, M. and Hamburger, V. 1976. Reduction of the naturally occurring motor neuron loss by enlargement of the periphery. J. Comp. Neurol. 170, 311-320.

Huang, L. and Pallas, S. L. 2001. NMDA receptor blockade in the superior colliculus prevents developmental plasticity without blocking visual transmission or map compression. J. Neurophysiol. 86, 1179-1194.

Huffman, K. J., Garel, S., and Rubenstein, J. L. R. 2004. Fgf8 regulates the development of intra-neocortical projections. J. Neurosci. 24, 8917-8923.

Imig, T. J. and Brugge, J. F. 1978. Sources and terminations of callosal axons related to binaural and frequency maps in primary auditory cortex of the cat. J. Comp. Neurol. 182, 637-660.

Innocenti, G. M. 1981. Growth and reshaping of axons in the establishment of visual callosal connections. Science 215, 824-827.

Innocenti, G. M., Fiore, L., and Caminiti, R. 1977. Exuberant projection into the corpus callosum from the visual cortex of newborn cats. Neurosci. Lett. 4, 237-242.

Jackson, C. A., Peduzzi, J. D., and Hickey, T. L. 1989. Visual cortex development in the ferret. I: Genesis and migration of visual cortical neurons. J. Neurosci. 9, 1242-1253.

Kaas, J. H. 1993. Evolution of multiple areas and modules within neocortex. Perspect. Dev. Neurobiol. 1, 101-107.

Kaas, J. H. 1995. The evolution of isocortex. Brain Behav. Evol. 46, 187-196.

Kaas, J. H. and Reine, A. 1999. Evolutionary neurobiology: The neocortex comes together. Nature 399, 418.

Katz, M. J. and Lasek, R. J. 1978. Evolution of the nervous system: Role of ontogenetic mechanisms in the evolution of matching populations. Proc. Natl. Acad. Sci. USA 75,1349-1352.

Keynes, R. and Krumlauf, R. 1994. Hox genes and regionaliza-tion of the nervous system. Annu. Rev. Neurosci. 17, 109-132.

Knoll, B. and Drescher, U. 2002. Ephrin-As as receptors in topographic projections. Trends Neurosci. 25, 145-149.

Korematsu, K. and Redies, C. 1997. Expression of cadherin-8 mRNA in the developing mouse central nervous system. J. Comp. Neurol. 387, 291-306.

Kornack, D. R. 2000. Neurogenesis and the evolution of cortical diversity: Mode, tempo, and partitioning during development and persistence in adulthood. Brain Behav. Evol. 55, 336-344.

Kornack, D. R. and Rakic, P. 1998. Changes in cell-cycle kinetics during the development and evolution of primate neocortex. Proc. Natl. Acad. Sci. USA 95, 1242.

Krubitzer, L. and Kaas, J. 2005. The evolution of the neocortex in mammals: How is phenotypic diversity generated? Curr. Opin. Neurobiol. 15, 444-453.

Levitt, P., Barbe, M. F., and Eagleson, K. L. 1997. Patterning and specification of the cerebral cortex. Annu. Rev. Neurosci. 20, 1-24.

Lewis, J. W. and Olavarria, J. F. 1995. Two rules for callosal connectivity in striate cortex of the rat. J. Comp. Neurol. 361, 119-137.

Lopez-Bendito, G. and Molnar, Z. 2003. Thalamocortical development: How are we going to get there? Nat. Rev. Neurosci. 4, 276-289.

Luskin, M. B. and Shatz, C. J. 1985. Neurogenesis of the cat's primary visual cortex. J. Comp. Neurol. 242, 611-631.

Malach, R., Amir, Y., Harel, M., and Grinvald, A. 1993. Relationship between intrinsic connections and functional architecture revealed by optical imaging and in vivo targeted biocytin injections in primate striate cortex. Proc. Natl. Acad. Sci. USA 90, 10469-10473.

Mallamaci, A., Muzio, L., Chan, C.-H., Parnavelas, J., and Boncinelli, E. 2000. Area identity shifts in the early cerebral cortex of Emx-/- mutant mice. Nat. Neurosci. 3, 679-686.

Matsubara, J. A. and Phillips, D. P. 1988. Intracortical connections and their physiological correlates in the primary auditory cortex (AI) of the cat. J. Comp. Neurol. 268, 38-48.

McLaughlin, T., Hindges, R., and O'Leary, D. D. 2003. Regulation of axial patterning of the retina and its topographic mapping in the brain. Curr. Opin. Neurobiol. 13, 57-69.

Metin, C. and Frost, D. O. 1989. Visual responses of neurons in somatosensory cortex of hamsters with experimentally induced retinal projections to somatosensory thalamus. Proc. Natl. Acad. Sci. USA 86, 357-361.

Miller, B., Chou, L., and Finlay, B. L. 1993. The early development of thalamocortical and corticothalamic projections. J. Comp. Neurol. 335, 16-41.

Miller, B. M., Windrem, M. S., and Finlay, B. L. 1991. Thalamic ablations and neocortical development: Alterations in thala-mic and callosal connectivity. Cereb. Cortex 1, 241-261.

Miyashita-Lin, E. M., Hevner, R., Montzka Wasserman, K., Martinez, S., and Rubenstein, J. L. R. 1999. Early neocortical regionalization in the absence of thalamic innervation. Science 285, 906-909.

Moerschel, D. J. and Pallas, S. L. 2001. Early postnatal formation of clustered horizontal connections in ferret auditory cortex. Soc. Neurosci. Abstr. 27, 903-908.

Molnar, Z. 2000. Development and evolution of thalamocortical interactions. Eur. J. Morphol. 38, 313-320.

Moore, D. R. and Hine, J. E. 1992. Rapid development of the auditory brainstem response threshold in individual ferrets. Dev. Brain Res. 66, 229-235.

Nakagawa, Y., Johnson, J. E., and O'Leary, D. D. M. 1999. Graded and areal expression patterns of regulatory genes and cadherins in embryonic neocortex independent of thala-mocortical input. J. Neurosci. 19, 10877-10885.

Neville, H. J. 1990. Intermodal competition and compensation in development. Evidence from studies of the visual system in congenitally deaf adults. Ann. NY Acad. Sci. 608, 71-87.

Northcutt, R. G. and Kaas, J. H. 1995. The emergence and evolution of mammalian neocortex. Trends Neurosci. 18, 373-379.

Ohki, K., Chung, S., Ch'ng, Y. H., Kara, P., and Reid, R. C. 2005. Functional imaging with cellular resolution reveals precise micro-architecture in visual cortex. Nature 433, 597-603.

Olavarria, J. F. 2001. Callosal connections correlate preferentially with ipsilateral cortical domains in cat areas 17 and 18, and with contralateral domains in the 17/18 transition zone. J. Comp. Neurol. 433, 441.

O'Leary, D. D. and Wilkinson, D. G. 1999. Eph receptors and ephrins in neural development. Curr. Opin. Neurobiol. 9, 65.

O'Leary, D. D. M. 1989. Do cortical areas emerge from a protocortex?. Trends Neurosci. 12, 400-406.

O'Leary, D. D. M. and Stanfield, B. B. 1986. A transient pyramidal tract projection from the visual cortex in the hamster and its removal by selective collateral elimination. Dev. Brain Res. 27, 87-99.

Pallas, S. L. 2001a. Intrinsic and extrinsic factors shaping cortical identity. Trends Neurosci. 24, 417-423.

Pallas, S. L. 2001b. Specification of mammalian neocortex: The power of the evo-devo approach in resolving the nature-nurture dichotomy. Invited peer commentary on M. A. Kingsbury and B. L. Finlay, The cortex in multidimensional space: Where do cortical areas come from? Dev. Sci. 4, 148-150.

Pallas, S. L. 2002. Cross-modal plasticity as a tool for understanding ontogeny and phylogeny of cerebral cortex. In: Cortical Areas: Unity and Diversity (eds. A. Shiiz and R. Miller). Harwood Academic Publishers.

Pallas, S. L. and Finlay, B. L. 1989. Conservation of receptive field properties of superior colliculus cells after developmental rearrangements of retinal input. Vis. Neurosci. 2, 121-135.

Pallas, S. L. and Finlay, B. L. 1991. Compensation for population size mismatches in the hamster retinotectal system: Alterations in the organization of retinal projections. Vis. Neurosci. 6, 271-281.

Pallas, S. L. and Moore, D. R. 1997. Retinal axons arborize in the medial geniculate nucleus of neonatally-deafened ferrets. Soc. Neurosci. Abstr. 23, 1994.

Pallas, S. L., Roe, A. W., and Sur, M. 1990. Visual projections induced into the auditory pathway of ferrets. I: Novel inputs to primary auditory cortex (AI) from the LP/pulvinar complex and the topography of the MGN-AI projection. J. Comp. Neurol. 298, 50-68.

Pallas, S. L., Littman, T., and Moore, D. R. 1999. Cross-modal reorganization of callosal connectivity in auditory cortex without altering thalamocortical projections. Proc. Natl. Acad. Sci. USA 96, 8751-8756.

Pallas, S. L., Razak, K. A., and Moore, D. R. 2002. Cross-modal projections from LGN to primary auditory cortex following perinatal cochlear ablation in ferrets. Soc. Neurosci. Abstr. 28, 220-228.

Pilar, G., Landmesser, L., and Burstein, L. 1980. Competition for survival among developing ciliary ganglion cells. J. Neurophysiol. 43, 233-254.

Poskanzer, K., Needleman, L. A., Bozdagi, O., and Huntley, G. W. 2003. N-cadherin regulates ingrowth and laminar targeting of thalamocortical axons. J. Neurosci. 23, 2294-2305.

Pratt, T., Vitalis, T., and Price, D. J. 2000. A role for Pax6 in the normal development of dorsal thalamus and its cortical connections. Development 127, 5167.

Rakic, P. 1988. Specification of cerebral cortical areas. Science 241, 170-176.

Razak, K. A. and Pallas, S. L. 2005. Neural mechanisms of stimulus velocity tuning in the superior colliculus. J. Neurophysiol. 94, 3573-3589.

Razak, K. A., Huang, L., and Pallas, S. L. 2002. Early NMDA receptor blockade in the superior colliculus alters surround suppression but not stimulus size or velocity tuning. Soc. Neurosci. Abstr. 28, 331-334.

Razak, K. A., Huang, L., and Pallas, S. L. 2003. NMDA receptor blockade in the superior colliculus increases receptive field size without altering velocity and size tuning. J. Neurophysiol. 90, 110-119.

Riederer, B. M., Berbel, P., and Innocenti, G. M. 2004. Neurons in the corpus callosum of the cat during postnatal development. Eur. J. Neurosci. 19, 2039-2046.

Roe, A. W., Pallas, S. L., Hahm, J., and Sur, M. 1990. A map of visual space induced in primary auditory cortex. Science 250, 818-820.

Roe, A. W., Pallas, S. L., Kwon, Y., and Sur, M. 1992. Visual projections routed to the auditory pathway in ferrets: Receptive fields of visual neurons in primary auditory cortex. J. Neurosci. 12, 3651-3664.

Rosa, M. G. P. and Krubitzer, L. A. 1999. The evolution of visual cortex: Where is V2? Trends Neurosci. 22, 242.

Ruthazer, E. S. and Stryker, M. 1996. The role of activity in the development of long-range horizontal connections in area 17 of the ferret. J. Neurosci. 16, 7253-7269.

Sadato, N., Pascual-Leone, A., Grafman, J., et al. 1996. Activation of the primary visual cortex by Braille reading in blind subjects. Nature 380, 526-528.

Sadka, R. S. and Wollberg, Z. 2004. Response properties of auditory activated cells in the occipital cortex of the blind mole rat: An electrophysiological study. J. Comp. Physiol. (A) 190, 403-414.

Schlaggar, B. L. and O'Leary, D. D. M. 1991. Potential of visual cortex to develop an array of functional units unique to soma-tosensory cortex. Science 252, 1556-1560.

Schmidt, J. T. 1982. The formation of retinotectal projections. Trends Neurosci. 5, 111-115.

Schneider, G. E. 1973. Early lesions of the superior colliculus: Factors affecting the formation of abnormal retinal projections. Brain Behav. Evol. 8, 73-109.

Scott, E. C. 2006. Creationism and evolution: It's the American way. Cell 124, 449-451.

Sharma, J., Angelucci, A., and Sur, M. 2000. Induction of visual orientation modules in auditory cortex. Nature 404, 841-847.

Simon, D. K., Prusky, G. T., O'Leary, D. D. M., and Constantine-Paton, M. 1992. N-Methyl-D-aspartate receptor antagonists disrupt the formation of a mammalian neural map. Proc. Natl. Acad. Sci. USA 89, 10593-10597.

Sperry, R. W. 1963. Chemoaffinity in the orderly growth of nerve fiber patterns and connections. Proc. Natl. Acad. Sci. USA 50, 703-710.

Stoeckli, E. T. and Landmesser, L. T. 1998. Axon guidance at choice points. Curr. Opin. Neurobiol. 8, 73.

Sur, M., Garraghty, P. E., and Roe, A. W. 1988. Experimentally induced visual projections into auditory thalamus and cortex. Science 242, 1437-1441.

Sur, M., Pallas, S. L., and Roe, A. W. 1990. Cross-modal plasticity in cortical development: Differentiation and specification of sensory neocortex. Trends Neurosci. 13, 227-233.

Suzuki, S. C., Inoue, T., Kimura, Y., Tanaka, T., and Takeichi, M. 1997. Neuronal circuits are subdivided by differential expression of type-II classic cadherins in postnatal mouse brains. Mol. Cell Neurosci. 9, 433-447.

Tadesse, T., Xu, M., Young, L. J., Baro, D. J., and Pallas, S. L. 2004. Ephrin-A gradients are altered in mammalian retinocol-licular map compression. Soc. Neurosci. Abstr. 30, 839-1810.

Tuttle, R., Nakagawa, Y., Johnson, J. E., and O'Leary, D. D. M. 1999. Defects in thalamocortical axon pathfinding correlate with altered cell domains in Mash-1 deficient mice. Development 126, 1903-1916.

von Melchner, L. S., Pallas, S. L., and Sur, M. 2000. Visual behavior induced by retinal projections directed to the auditory pathway. Nature 404, 871-875.

Wallace, M. N. and Bajwa, S. 1991. Patchy intrinsic connections of the ferret primary auditory cortex. Neuroreport 2, 417-420.

White, L. E., Coppola, D. M., and Fitzpatrick, D. 2001. The contribution of sensory experience to the maturation of orientation selectivity in ferret visual cortex. Nature 411, 1049-1052.

Xiong, M., Pallas, S. L., Lim, S., and Finlay, B. L. 1994. Regulation of retinal ganglion cell axon arbor size by target availability: Mechanisms of compression and expansion of the retinotectal projection. J. Comp. Neurol. 344, 581-597.

Xu, M. and Pallas, S. L. 2005. Molecular patterning is altered in cross-modal plasticity. Soc. Neurosci. Abstr. 31, 140-141.

Xu, M., Baro, D. J., and Pallas, S. L. 2003. A quantitative study of gene expression topography in visual and auditory cortex during thalamocortical development in postnatal ferrets. Soc. Neurosci. Abstr. 29, 673-677.

Yates, P. A., Roskies, A. L., McLaughlin, T., and O'Leary, D. D. 2001. Topographic-specific axon branching controlled by ephrin-As is the critical event in retinotectal map development. J. Neurosci. 21, 8548-8563.

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