研究業績一覧

【教授】水波 誠 業績一覧

原著論文

  1. Sato M., Álvarez B. and Mizunami M. (2021). Reduction of contextual control of conditioned responses by extended Pavlovian training in an insect. Learning & Memory. 28: 17-23.

  2. Ebina H., Mizunami M. (2020). Appetitive and aversive social learning with living and dead conspecifics in crickets. Sci, Rep. 10:9340.

  3. Takahashi N., Nishino H., Domae M. and Mizunami M. (2019). Separate but interactive parallel olfactory processing streams governed by different types of GABAergic feedback neurons in the mushroom body of a basal insect. J. Neurosci. 39: 8690-8704.

  4. Domae M., Iwasaki M., Mizunami M. and Nishino H. (2019). Functional unification of sex pheromone-receptive glomeruli in an invasive cockroach derived from the genus Periplaneta. Neurosci. Lett.708: 134320.

  5. Mizunami M., Hirohata S., Sato A., Arai R., Terao K., Sato M. and Matsumoto Y. (2019). Development of behavioral automaticity by extended Pavlovian training in an insect. Proc. R. Soc. B. 286: 20182132.

  6. Hamanaka Y. and Mizunami M. (2018). Tyrosine hydroxylase-immunoreactive neurons in the mushroom body of the field cricket, Gryllus bimaculatus. Cell Tissue Res. https://doi.org/10.1007/s00441-018-2969-9.

  7. Nishino H, Iwasaki M, Paoli M, Kamimura I, Yoritsune A, Mizunami M. (2018). Spatial receptive fields for odor localization. Curr. Biol. 28:1-9.

  8. Koizumi M, Shigeno S, Mizunami M, Tanaka N. K. (2018) Calcium imaging method to visualize the spatial patterns of neural responses in the pygmy squid, Idiosepius paradoxus, central nervous system. J. Neurosci. Methods 294: 67-71.

  9. Terao K, Mizunami M. (2017) Roles of dopamine neurons in mediating the prediction error in aversive learning in insects. Sci. Rep. 7:14694.

  10. Watanabe H, Nishino H, Mizunami M, Yokohari F (2017) Two parallel olfactory pathways for processing general odor in a cockroach. Front. Neural Circuits 11: 32.

  11. Katoh K, Iwasaki M, Hosono S, Yoritsune, A, Ochiai M, Mizunami M, Nishino H. (2017) Group-housed females promote asexual ootheca production in American cockroaches. Zool. Lett. 3:3.

  12. Takahashi N, Katoh K, Watanabe H, Nakayama Y, Iwasaki M, Mizunami M, Nishino H. (2017) Complete identification of four calycal giant interneurons in an insect brain. J. Comp. Neurol. 525:204–230.

  13. Hosono S, Matsumoto Y, Mizunami M. (2016) Interaction of inhibitory and facilitatory effects of conditioning trials on long-term memory formation. Learning & Memory 23:669–678.

  14. Matsumoto Y, Matsumoto CS, Takahashi T, Mizunami M. (2016) Activation of NO-cGMP signaling rescues age-related memory impairment in an insect. Front. Behav. Neurosci. 10:166.

  15. Hamanaka Y, Minoura R, Nishino H, Miura T, Mizunami M. (2016) Dopamine- and tyrosine hydroxylase-immunoreactive neurons in the brain of the American cockroach, Periplaneta americana. PLoS One 11(8): e0160531.

  16. Awata H, Wakuda R, Ishimaru Y, Matsuoka Y, Terao K, Katata S, Matsumoto Y, Hamanaka Y, Noji S, Mito T, Mizunami1 M. (2016) Roles of OA1 octopamine receptor and Dop1 dopamine receptor in mediating appetitive and aversive reinforcement revealed by RNAi studies. Sci. Rep. 6: 29696.

  17. Yagi R, Mabuchi Y, Mizunami M, and Tanaka NK. (2016) Convergence of multimodal sensory pathways to the mushroom body calyx in Drosophila melanogaster. Sci. Rep. 6:29481

  18. Sugimachi S, Matsumoto Y, Mizunami M, Okada J (2016) Effects of caffeine on olfactory learning in crickets. Zool. Sci. 33:513-519.

  19. Koizumi M, Shigeno S, Mizunami M, Tanaka NK (2016) Three-dimensional brain atlas of pygmy squid, Idiosepius paradoxus. J. Comp. Neurol. 524: 2142-2157.

  20. Awata H, Watanabe T, Hamanaka Y, Mito T, Noji S, Mizunami M. (2015) Knockout crickets for the study of learning and memory: Dopamine receptor Dop1 mediates aversive but not appetitive reinforcement in crickets. Sci. Rep. 5: 15885.

  21. Matsumoto Y, Matsumoto CS, Wakuda R, Ichihara S, Mizunami M. (2015) Roles of octopamine and dopamine in appetitive and aversive memory acquisition studied in olfactory conditioning of maxillary palpi extension response in crickets. Front. Behav. Neurosci. 9:230.

  22. Nishino H, Watanabe H, Kamimura I, Yokohari F, Mizunami M. (2015). Coarse topographic organization of pheromone-sensitive afferents from different antennal surfaces in the American cockroach. Neurosci. Lett. 595: 35-40.

  23. Terao, K., Matsumoto, Y., & Mizunami, M. (2015). Critical evidence for the prediction error theory in associative learning. Scientific Reports, 5.

  24. Mizunami M, Nemoto Y, Terao K, Hamanaka Y, Matsumoto Y. (2014) Roles of calcium/calmodulin-dependent kinase II in long-term memory formation in cricket. PLoS One 9: 9

  25. Matsumoto Y, Sandoz JC, Devaud JM, Lormant F, Mizunami M, Giurfa M (2014) Cyclic nucleotide–gated channels, calmodulin, adenylyl cyclase and calcium/calmodulin-dependent kinase II are required for late but not early long-term memory formation in the honey bee. Learn. Mem. 21: 272-286.

  26. Matsumoto Y., Hirashima D., Terao K., Mizunami M. (2013) Roles of NO signaling in long-term memory formation in visual learning in an insect PLoS One 8:e68538.

  27. Matsumoto Y., Hirashima D., Mizunami M. (2013) Analysis and modeling of neural processes underlying sensory preconditioning. Neurobiol. Learn. Mem. 101: 103-113.

  28. Matsumoto C.S., Kuramochi T., Matsumoto Y., Watanabe H., Nishino H., Mizunami M.. (2013) Participation of NO signaling in formation of long-term memory in salivary conditioning of the cockroach. Neurosci. Lett. 541: 4-8.

  29. Nishino H., Iwasaki M., Kamimura I., Mizunami M. (2012) Divergent and convergent projections to the two parallel olfactory centers from two neighboring, pheromone-receptive glomeruli in the male American cockroach. J. Comp. Neurol. 520: 342-3445.

  30. Nishino H., Iwasaki M., Yasuyama K., Hongo H., Watanabe H. and Mizunami M. (2012) Visual and olfactory input segregation in the mushroom body calyces in a basal neopteran, the American cockroach. Arthropod Struct. Dev. 41: 3-16.

  31. Matsumoto C.S., Matsumoto Y., Watanabe H., Nishino H. and Mizunami M. (2012) Context-dependent olfactory learning monitored by activities of sapvary neurons in cockroaches. Neurobiol. learn. Mem. 97: 30-36.

  32. Nishino H., Iwasaki M., and Mizunami M. (2011) Pheromone detection by a pheromone emitter: a small, sex pheromone-specific processing system in the female American cockroach. Chem. Senses 36.261-270.

  33. Watanabe H., Matsumoto SC., Nishino H. and Mizunami M. (2011) Critical roles of mecamylamine-sensitive mushroom body neurons in insect olfactory learning. Neurobiol. Learn. Mem. 95:1-13.

  34. Watanabe H., Nishino H., Nishikawa M., Mizunami M. and Yokohari F. (2010) Complete mapping of glomeruli based on sensory nerve branching pattern in the primary olfactory center of the cockroach Periplaneta americana. J. Comp. Neurol.518: 3907-3930.

  35. Yamagata N. and Mizunami M. (2010) Spatial representation of alarm pheromone information in a secondary olfactory center in the ant brain. Proc. R. Soc. B. 277: 2465-2475.

  36. Nishino H., Yoritsune A., and Mizunami M. (2010) Postembryonic development of sexually dimorphic glomerup and related interneurons in the cockroach Periplaneta americana. Neurosci. Lett. 469: 60-64.

  37. Yamagata N., Schmuker M., Szyszka P., Mizunami M., and Menzel R. (2009) Differential odor processing in two olfactory pathways in the honeybee. Frontiers Systems Neurosci. 3: 16.

  38. Matsumoto Y., Hatano A., Unoki S. and Mizunami M. (2009) Stimulation of the cAMP system by the nitric oxide-cGMP system underlying the formation of long-term memory in an insect. Neurosci. Lett. 467:81-85.

  39. Mizunami M., Unoki S., Mori Y., Hirashima D., Hatano A., and Matsumoto Y. (2009) Roles of octopaminergic and dopaminergic neurons in appetitive and aversive memory recall in an insect. BMC Biology 7:46.

  40. Nakatani Y., Matsumoto Y., Mori Y., Hirashima D., Nishino H., Arikawa K. and Mizunami M. (2009) Why the carrot is more effective than the stick: Different dynamics of punishment memory and reward memory and its possible biological basis. Neurobiol. Learn. Mem. 92:370-380.

  41. Nishino H., Yoritsune A., and Mizunami M. (2009) Different growth patterns of two adjacent glomerup responsible for sex-pheromone processing during postembryonic development of the cockroach Periplaneta americana. Neurosci. Lett. 462: 219-224.

  42. Nishino H., Nishikawa M., Mizunami M., and Yokohari F. (2009) Functional and topographic segregation of glomerup revealed by local staining of antennal sensory neurons in the honeybee Apis melpfera. J. Comp. Neurol. 515: 161-180.

  43. Takahashi T., Hamada A., Miyawaki K., Matsumoto Y., Mito T., Noji S., and Mizunami M. (2009) Systemic RNA interference for the study of learning and memory in an insect. J. Neurosci. Methods 179: 9-15.

  44. Watanabe H., Sato C., Kuramochi T., Nishino H., and Mizunami M. (2008) Sapvary conditioning with antennal gustatory unconditioned stimulus in an insect. Neurobiol. Learn. Mem. 90: 245-254.

  45. Nishino H. and Mizunami M. (2007) Both circumferential and longitudinal position of sensilla on an insect antennae influence afferent terminal location in glomerup. NeuroReport 18:1765-1769.

  46. Yamagata N., Nishino H. and Mizunami M. (2007) Neural pathways for the processing of alarm pheromone in the ant brain. J. Comp. Neurol. 505: 424-442.

  47. Watanabe H. and Mizunami M. (2007) Pavlov’s cockroach: classical conditioning of sapvation in an insect. PLoS ONE 6:e529.

  48. Matsumoto Y. and Mizunami M. (2006) Olfactory memory capacity of the cricket Gryllus bimaculatus. Biol. Letters 2:608-610.

  49. Unoki S., Matsumoto Y. and Mizunami M. (2006) Roles of octopaminergic and dopaminergic neurons in mediating reward and punishment signals in insect visual learning. Eur. J. Neurosci. 24: 2031-2038.

  50. Nishino H. and Mizunami M. (2006) Termination profiles of insect chemosensory afferents in the antennal lobe are dependent on their origin on the flagellum. NeuroReport 17: 1303-1307.

  51. Yamagata N., Nishino H. and Mizunami M. (2006) Pheromone-sensitive glomerup in the primary olfactory center of ants. Proc. R. Soc. B. 273: 2219-2225.

  52. Fujiwara-Tsujii N. Yamagata N. Takeda T. Mizunami M. and Yamaoka R. (2006) Behavioral responses to the alarm pheromone of the ant Camponotus obscuripes (Hymenoptera: Formicidae). Zool. Sci. 23: 353-358.

  53. Sato C. Matsumoto Y. Sakura M. and Mizunami M. (2006) Contextual olfactory learning in cockroaches. NeuroReport 17:553-557.

  54. Watanabe H. and Mizunami M. (2006) Classical conditioning of activities of sapvary neurons in an insect. J. Exp. Biol. 209:766-779.

  55. Matsumoto Y., Unoki S., Aonuma H., Mizunami M. (2006) Critical roles of the nitric oxide-cGMP cascade in the formation of cAMP-dependent long-term memory. Learn. Mem. 13:35-44.

  56. Yamagata N., Fujiwara-Tsujii N., Yamaoka R. and Mizunami M. (2005) Pheromone communication and the mushroom body of the ant Camponotus obscuripes (Hymenoptera: Formicidae). Naturwissenshaften 92:532-536.

  57. Unoki S., Matsumoto Y. and Mizunami M. (2005) Participation of octopaminergic reward system and dopaminergic punishment system in insect olfactory learning revealed by pharmacological study. Eur. J. Neurosci. 22: 1409-1416.

  58. Nishino H., Nishikawa M., Yokohari F., and Mizunami M. (2005) Dual, multi-layered somatosensory maps formed by antennal tactile and contact chemosensory afferents in an insect brain. J. Comp. Neurol. 493: 291-308.

  59. Matsumoto Y. and Mizunami M. (2004) Context-dependent olfactory learning in an insect. Learn. Mem. 11: 288-293.

  60. Watanabe H., Kobayashi Y., Sakura M., Matsumoto Y. and Mizunami M. (2003) Classical olfactory conditioning in the cockroach Periplaneta americana. Zool. Sci. 20: 1447-1454.

  61. Matsumoto Y., Noji S. and Mizunami M. (2003) Time course of protein synthesis-dependent phase of olfactory memory in the cricket Gryllus bimaculatus. Zool. Sci. 20: 409-416.

  62. Okada R., Sakura M. and Mizunami M. (2003) Distribution of dendrites of descending neurons and its imppcations for the basic organization of the cockroach brain. J. Comp. Neurol. 458: 158-174.

  63. Nishino H., Yamashita S., Yamazaki Y. Nishikawa M., Yokohari F. and Mizunami M. (2003) Projection neurons originating from thermo- and hygrosensory glomerup in the antennal lobe of the cockroach. J. Comp. Neurol. 455: 40-55.

  64. Sakura M., Okada R. and Mizunami M. (2002) Olfactory discrimination of structurally similar alcohols by cockroaches. J. Comp. Physiol. A. 188: 787-797.

  65. Matsumoto Y. and Mizunami M. (2002) Lifetime olfactory memory in the cricket Gryllus bimaculatus. J. Comp. Physiol. A. 188: 295-299.

  66. Matsumoto Y. and Mizunami M. (2002) Temporal determinants of long-term retention of olfactory memory in the cricket Gryllus bimaculatus. J. Exp. Biol. 205: 1429-1437.

  67. Sakura M. and Mizunami M. (2001) Olfactory learning and memory in the cockroach Periplaneta americana. Zool. Sci. 18: 21-28.

  68. Matsumoto Y. and Mizunami M. (2000) Olfactory learning in the cricket Gryllus bimaculatus. J. Exp. Biol. 203: 2581-2588.

  69. Okada R., Ikeda J. and Mizunami M. (1999) Sensory responses and movement-related activities in extrinsic neurons of the cockroach mushroom bodies. J. Comp. Physiol. A. 185: 115-129.

  70. Iwasaki M., Mizunami M., Nishikawa M., Itoh T. and Tominaga Y. (1999) Ultrastructural analysis of modular subunits in the mushroom bodies of the cockroach. J. Electron Microsc. 48: 55-62.

  71. Mizunami M., Weibrecht JM. and Strausfeld NJ. (1998) Mushroom bodies of the cockroach: Their participation in place memory. J. Comp. Neurol. 402: 520-537.

  72. Mizunami M., Okada R., p Y. and Strausfeld N.J. (1998) Mushroom bodies of the cockroach: The activity and identities of neurons recorded in freely moving animals. J. Comp. Neurol. 402: 501-519.

  73. Mizunami M., Iwasaki M., Okada R. and Nishikawa M. (1998) Topography of four classes of Kenyon cells in the mushroom bodies of the cockroach. J. Comp. Neurol. 399: 162-175.

  74. Mizunami M., Iwasaki M., Okada R. and Nishikawa M. (1998) Topography of modular subunits in the mushroom bodies of the cockroach. J. Comp. Neurol. 399: 153-161.

  75. Nishino H. and Mizunami M. (1998) Giant input neurons of the mushroom body: intracellular recording and staining in the cockroach. Neurosci. Lett. 246: 57-60.

  76. Yamazaki Y., Nishikawa M. and Mizunami M. (1998) Three classes of GABA-pke immunoreactive neurons in the mushroom body of the cockroach. Brain Res. 788: 80-86.

  77. Nishikawa M., Nishino H., Mizunami M. and Yokohari F. (1998) Function-specific distribution patterns of axon terminals of input neurons in the calyces of the mushroom body of the cockroach, Periplaneta americana. Neurosci. Lett. 245: 33-36.

  78. Mizunami M., Iwasaki M., Nishikawa M. and Okada R. (1997) Modular structures in the mushroom body of the cockroach. Neurosci. Lett. 229: 153-156.

  79. Mizunami M. (1996) Gain control of synaptic transfer from second- to third-order neurons of cockroach ocelp. J. Gen. Physiol. 107: 121-131.

  80. Mizunami M. (1995) Morphology of higher-order ocellar interneurons in the cockroach brain. J. Comp. Neurol. 362: 293-304.

  81. Mizunami M. (1995) Neural organization of ocellar pathways in the cockroach brain. J. Comp. Neurol. 352: 458-468.

  82. Mizunami M. (1990) Synaptic rectification model equivalent to the correlation-type movement detector. Biol. Cybern. 64: 1-6.

  83. pn J. T., Toh Y., Mizunami M. and Tateda H. (1990) Putative neurotransmitter in the ocellar neuropile of American cockroaches. Zool. Sci. 7: 593-603.

  84. Mizunami M. (1990) Nonpnear signal transmission between second- and third-order neurons of cockroach ocelp. J. Gen. Physiol. 95: 297-317.

  85. Mizunami M. and Tateda H. (1988) Synaptic transmission between second- and third-order neurones of cockroach ocelp. J. Exp. Biol. 140: 557-561.

  86. Mizunami M. and Tateda H. (1988) Dynamic relationship between the slow potential and spikes in cockroach ocellar neurons. J. Gen. Physiol. 91: 703-723.

  87. Mizunami M., Yamashita S. and Tateda H. (1987) Calcium-dependent action potentials in the second-order neurones of cockroach ocelp. J. Exp. Biol. 130: 259-274.

  88. Mizunami M., Tateda H. and Naka K. -I. (1986) Dynamics of cockroach ocellar neurons. J. Gen. Physiol. 88: 275-292.

  89. Mizunami M. and Tateda H. (1986) Classification of ocellar interneurones in the cockroach brain. J. Exp. Biol. 125: 57-70.

  90. Mizunami M., Yamashita S. and Tateda H. (1982). Intracellular stainings of the large ocellar second-order neurons in the cockroach. J. Comp. Physiol. A. 149: 215-219.

和文原著論文

  1. 水波 誠 (1976) 福岡県の真正蜘蛛類 ATYPUS(東亜蜘蛛学会誌)62: 38-44.

著書

  1. 水波誠(2017) 動物の事典、末松他編「感覚器」を担当、朝倉書店(印刷中)

  2. Bioinspired Actuators and Sensors (2014) Taya M, Vonkenburgh Ev, Mizunami M, Nomura S. Cambridge Univ Press.

  3. 松本幸久、水波誠、松本千尋 (2014)「昆虫に匂いを覚えさせよう」、藍浩之他編、研究者が教える動物実験、第3巻 行動、共立出版 

  4. 水波誠、(2014) 「脳画像集」、藍浩之他編、研究者が教える動物実験 第2巻 神経・筋、共立出版

  5. Mizunami M (2014) Chapter 26. Learning and Memory; Chapter 39. Protocols of the study of learning and Memory. In: Cricket as a Model Organism: Development, Regeneration, and Behavior. Eds. by Noji S, Horch HW, Ohuchi H, Mito T. Springer-verlag (in press)

  6. 水波誠(2013) 自己受容器などの項目や付録1を担当、上田恵介他編、行動生物学辞典、東京化学同人

  7. 水波誠 (2013)、微小脳と巨大脳(項目担当)、高校生物教師用指導書(DVD版)、東京書籍

  8. Mizunami M., Matsumoto Y., Watanabe H., Nishino H. (2013) Olfactory and visual learning in cockroaches and crickets. In: Invertebrate Learning and Memory, eds by R. Menzel and P .R.Benjamin, Springer, pp. 547-558.

  9. 松本幸久、水波誠(2012)マダガスカルゴキブリの飼育(分担執筆)、針山孝彦、小柳光正ら編、研究者が教える動物飼育第2巻「昆虫とクモの仲間」、共立出版(pp. 31-34)

  10. 水波誠、松本幸久(2009)コオロギの学習と記憶(分担執筆)、曽我部正博編、「動物は何を考えているのか?:学習と記憶の比較生物学」、共立出版、pp.65-81.

  11. 水波誠(2008)、編集委員および分担執筆・監訳、   昆虫の学習を司る報酬系と罰系(分担執筆、pp.596-599); 地平線検出器としての単眼とその応用(分担執筆、pp.669-671);小さな脳、輝く知性(監訳、pp.579-582); キノコ体の覚え書き:地図からモデルへ(監訳、pp.583-595)、 下澤楯夫・針山孝彦監修、「昆虫ミメティックス〜昆虫の設計に学ぶ〜」、NTS

  12. 水波誠((2008) 探索昆蟲微小腦、(「昆虫—驚異の微小脳」の中国語版)、陳玉華訳、世茂出版(台湾)

  13. 水波誠(2008)昆虫の学習能力はどれくらい?(分担執筆)、山口恒夫編、「昆虫はスーパー脳」、技術評論社、pp.73-99.

  14. 水波誠(2007)昆虫の微小脳:脳進化の1つの頂点(分担執筆)、小泉修・阿形清和編、「神経系の多様性:その起源と進化」、培風館、pp.97-132.

  15. 水波誠(2006)昆虫—驚異の微小脳、中公新書

  16. 水波誠、木村哲也 (2005) 微小脳の記憶システム(分担執筆)、桑沢清明・冨永佳也・山口恒夫編、もうひとつの脳〜微小脳の研究入門、培風館、pp.85-114.

  17. 水波誠 (1999) 一寸のゴキブリの5分の魂 (分担執筆)、実験室の小さな生きものたち、羊土社、 pp.70-73.

  18. Mizunami M. (1999) Ocelli. In: Atlas of arthropod sensory receptors: Dynamic morphology in relation to function (eds. Eguchi E. and Tominaga Y.) Springer-verlag. pp. 71-78.

  19. 水波誠 (1997) 昆虫の記憶と学習 (分担執筆). 青木清編、行動生物学、朝倉書店、pp. 66-67.

  20. 水波誠 (1995) 昆虫の単眼系の働きと進化 (分担執筆). 宮下保司・下條信輔編、脳から心へー高次機能の解明に挑む、岩波書店、pp.292-299.

  21. 水波誠 (1995) キノコ体は記憶の座である (分担執筆). 富永佳也編、昆虫の脳を探る、共立出版、pp. 218-233.

  22. Mizunami M., Weibrecht J.M. and Strausfeld N.J. (1993) A new role for the insect mushroom bodies. In: Biological neural networks in invertebrate neuroethology and robotics (eds. Beer R.D., Ritzmann, R., and Mckenna T.). Academic Press, pp. 199-225.

  23. Mizunami M. (1989) Dynamics of second-order neurons of cockroach ocelli. In: Neurobiology of Sensory Systems (eds. Singh N.R. and Strausfeld N.J.). Plenum Press pp. 71-84.

総説

  1. Mizunami M, Nishino H, Yokohari F. (2016) Status of and future research on thermosensory processing. Front. Physiol. 7:150.

  2. Mizunami M, Hamanaka Y, Nishino H. (2015) Toward elucidating diversity of neural mechanisms underlying insect learning. Zool. Letters. 1: 8.

  3. 水波誠(2013)昆虫の学習の体験企画は可能か どうぶつと動物園、2013年春号、p31

  4. 偉大な微小脳 (2012) Nextcom, 10: 38-39.

  5. Mizunami M., Matsumoto Y. (2010) Roles of aminergic neurons in formation and recall of associative memory in crickets. Frontiers Behav. Neurosci. 4, 172.

  6. Mizunami M., Yamagata N. and Nishino H. (2010) Alarm pheromone processing in the ant brain: an evolutionary perspective. Frontiers Behav. Neurosci. 4, 28.

  7. 水波誠、松本幸久 (2010) 昆虫の匂い記憶の読み出しに関わるモノアミン作動性ニューロン、Aroma Research 11: 53-57.

  8. 水波誠(2009)微小脳と巨大脳—自然は多彩な脳を生み出した、科学 79: 636-641.

  9. 水波誠(2009)昆虫の脳は神経細胞100万個の「微小脳」、At Home Time 327: 2-3.

  10. Ikeno H. Kanzaki R. Aonuma H. Takahata M. Mizunami M. Yasuyama K. Matsui N. Yokohari F. and Usui S. (2008) Development of invertebrate brain platform. LCNS, 4985: 905-914.

  11. 水波誠 (2007) 生きもののデザイン、Inter Communication, 60: 110-111.

  12. Matsumoto Y. and Mizunami M. (2005) Formation of long-term olfactory memory in the cricket Gryllus bimaculatus. Chem. Senses 30: 299-300.

  13. Mizunami M., Yokohari F. and Takahata M. (2004) Further exploration into the adaptive design of the arthropod “microbrain”: I. Sensory and memory-processing systems. Zool. Sci. 21:1141-1151.

  14. Matsumoto Y. and Mizunami M. (2000) Olfactory learning in crickets. In: Proceedings of The 18th Tsukuba Insect Science Symposium: Learning in Insect Foraging pp. 33-43.

  15. 水波誠、松本幸久、佐倉緑、岡田龍一 (1999) 昆虫の嗅覚学習, 電子科学研究 7: 69-71.

  16. Mizunami M., Yokohari F., Takahata M. (1999) Exploration into the adaptive design of the arthropod "microbrain." Zool. Sci. 16: 703-709.

  17. 水波誠 (1998) 昆虫の脳「微小脳」におけるモジュール構造、脳21 Vol. 1, No. 3, 79-85.

  18. 松本茂、水波誠 (1997) 電位感受性色素によるワモンゴキブリ最終腹部神経節の光学的計測 電子科学研究 5: 94-96.

  19. 水波誠、岡田龍一 (1997) 昆虫の脳のキノコ体のモジュール構造 電子科学研究 5: 10-13.

  20. 水波誠 (1997) 一寸のゴキブリの五分の魂、実験医学 15: 21-32.

  21. 水波誠 (1996) 明暗視から運動視への進化と基本設計、BME 10 (11): 38-47.

  22. 水波誠、岡田龍一、池田潤治 (1995) 歩行運動時の昆虫のキノコ体ニューロンの活動, 電子科学研究 3, 104-106.

  23. 水波誠、岡田龍一 (1995) 歩行運動時のゴキブリのキノコ体ニューロンの活動 生理・生体工学シンポジウム論文集 pp273-276.

  24. Strausfeld N. J., Weibrecht J. M., Mizunami M., and Danzer S. (1995) The role of insect olfactory centers (mushroom bodies) in spatial memory processing. Chem. Senses 20: 80-81.

  25. Mizunami M. (1995) Functional diversity of neural organization in insect ocellar systems. Vision Res. 35: 443-452.

  26. Mizunami M. (1994) Information processing in the insect ocellar system. Adv. Insect Physiol. 25: 151-265.

  27. Mizunami M. (1994) Processing of contrast signals in the insect ocellar system. Zool. Sci. 11: 175-190.

  28. 水波誠 (1994) 昆虫の単眼系の働きと進化, 科学 64: 582-589.

  29. 水波誠 (1994) 明暗視の神経機構 : 昆虫単眼系の研究から 比較生理生化学 11, 63-73.

  30. 水波誠、Weibrecht J. M. and Strausfeld N. J. (1993) 昆虫の場所記憶, 電子科学研究 1: 94-95.

  31. 水波誠 (1993) 昆虫の脳の謎に挑む, 生物科学ニュース 260, 19-21.

  32. 水波誠 (1992) ワイヤ電極を用いた自由行動中の昆虫の中枢ニューロンの活動記録及び染色法, 比較生理生化学 9: 148-155.

  33. Mizunami M. and Tateda H. (1984) Identification of ocellar interneurons of the cockroach. Proceedings of the 13th NIBB conference pp. 22-25.

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