「バレル皮質」の版間の差分

ナビゲーションに移動 検索に移動
31行目: 31行目:
==参考文献==
==参考文献==
<references />
<references />
Ballester-Rosado, C.J., Albright, M.J., Wu, C.S., Liao, C.C., Zhu, J., Xu, J.A., Lee, L.J., and Lu, H.C. (2010). mGluR5 in Cortical Excitatory Neurons Exerts Both Cell-Autonomous and -Nonautonomous Influences on Cortical Somatosensory Circuit Formation. Journal of Neuroscience 30, 16896-16909.
Carcea, I., Patil, S.B., Robison, A.J., Mesias, R., Huntsman, M.M., Froemke, R.C., Buxbaum, J.D., Huntley, G.W., and Benson, D.L. (2014). Maturation of cortical circuits requires [[Semaphorin]] [[7a|7A]]. Proceedings of the National Academy of Sciences of the [[United States]] of America 111, 13978-13983.
Cases, O., Lebrand, C., Giros, B., Vitalis, T., De Maeyer, E., Caron, M.G., Price, D.J., Gaspar, P., and Seif, I. (1998). Plasma membrane transporters of [[serotonin]], dopamine, and norepinephrine mediate serotonin accumulation in atypical locations in the developing brain of monoamine oxidase A knock-outs. Journal of Neuroscience 18, 6914-6927.
Cases, O., Vitalis, T., Seif, I., DeMaeyer, E., Sotelo, C., and Gaspar, P. (1996). Lack of barrels in the somatosensory cortex of monoamine oxidase A-deficient mice: Role of a serotonin excess during the critical period. Neuron 16, 297-307.
Chu, Y.F., Yen, C.T., and Lee, L.J. (2013). Neonatal whisker clipping alters behavior, neuronal structure and neural activity in adult rats. Behavioural Brain Research 238, 124-133.
Erzurumlu, R.S., and Kind, P.C. (2001). Neural activity: sculptor of 'barrels' in the neocortex. Trends in Neurosciences 24, 589-595.
Feldmeyer, D., Lubke, J., Silver, R.A., and Sakmann, B. (2002). Synaptic connections between layer 4 spiny neurone-layer 2/3 pyramidal cell pairs in juvenile rat barrel cortex: physiology and anatomy of interlaminar signalling within a cortical column. Journal of Physiology-London 538, 803-822.
Hannan, A.J., Blakemore, C., Katsnelson, A., Vitalis, T., Huber, K.M., Bear, M., Roder, J., Kim, D., Shin, H.S., and Kind, P.C. (2001). PLC-beta 1, activated via mGluRs, mediates activity-dependent differentiation in cerebral cortex. Nature Neuroscience 4, 282-288.
Harris, R.M., and Woolsey, T.A. (1979). MORPHOLOGY OF GOLGI-IMPREGNATED NEURONS IN MOUSE CORTICAL BARRELS FOLLOWING VIBRISSAE DAMAGE AT DIFFERENT POSTNATAL AGES. Brain Research 161, 143-149.
Harris, R.M., and Woolsey, T.A. (1981). DENDRITIC PLASTICITY IN MOUSE BARREL CORTEX FOLLOWING POSTNATAL VIBRISSA FOLLICLE DAMAGE. Journal of Comparative Neurology 196, 357-376.
Ince-Dunn, G., Hall, B.J., Hu, S.C., Ripley, B., Huganir, R.L., Olson, J.M., Tapscott, S.J., and Ghosh, A. (2006). Regulation of thalamocortical patterning and synaptic maturation by NeuroD2. Neuron 49, 683-695.
Iwasato, T., Erzurumlu, R.S., Huerta, P.T., Chen, D.F., Sasaoka, T., Ulupinar, E., and Tonegawa, S. (1997). NMDA receptor-dependent refinement of somatotopic maps. Neuron 19, 1201-1210.
Lu, H.C., She, W.C., Plas, D.T., Neumann, P.E., Janz, R., and Crair, M.C. (2003). Adenylyl cyclase I regulates AMPA receptor trafficking during mouse cortical 'barrel' map development. Nature Neuroscience 6, 939-947.
Lu, S.M., and Lin, R.C.S. (1993). THALAMIC AFFERENTS OF THE RAT BARREL CORTEX - A LIGHT-MICROSCOPIC AND ELECTRON-MICROSCOPIC STUDY USING PHASEOLUS-VULGARIS LEUKOAGGLUTININ AS AN ANTEROGRADE TRACER. Somatosensory and Motor Research 10, 1-16.
Matsui, A., Tran, M., Yoshida, A.C., Kikuchi, S.S., Mami, U., Ogawa, M., and Shimogori, T. (2013). BTBD3 Controls Dendrite Orientation Toward Active Axons in Mammalian Neocortex. Science 342, 1114-1118.
Rebsam, A., Seif, I., and Gaspar, P. (2002). Refinement of thalamocortical arbors and emergence of barrel domains in the primary somatosensory cortex: A study of normal and monoamine oxidase a knock-out mice. Journal of Neuroscience 22, 8541-8552.
Sehara, K., Toda, T., Iwai, L., Wakimoto, M., Tanno, K., Matsubayashi, Y., and Kawasaki, H. (2010). Whisker-Related Axonal Patterns and Plasticity of Layer 2/3 Neurons in the Mouse Barrel Cortex. Journal of Neuroscience 30, 3082-3092.
Staiger, J.F., Flagmeyer, I., Schubert, D., Zilles, K., Kotter, R., and Luhmann, H.J. (2004). Functional diversity of layer IV spiny neurons in rat somatosensory cortex: Quantitative morphology of electrophysiologically characterized and biocytin labeled cells. Cerebral Cortex 14, 690-701.
Suzuki, A., Lee, L.J., Hayashi, Y., Muglia, L., Itohara, S., Erzurumlu, R.S., and Iwasato, T. (2015). THALAMIC ADENYLYL CYCLASE 1 IS REQUIRED FOR BARREL FORMATION IN THE SOMATOSENSORY CORTEX. Neuroscience 290, 518-529.

案内メニュー