主要論文
Kato A, Ohta K, Okanoya K, Kazama H. Dopaminergic neurons dynamically update sensory values during navigation.
Cell Reports 42, 113122 (2023). [link]
bioRxiv doi.org/10.1101/2022.08.17.504092 (2022). [link]Endo K and Kazama H. Central organization of a high-dimensional odor space.
Current Opinion in Neurobiology 73:10252 (2022). [link]Wei H-P, Lam KC, Kazama H. Odors drive feeding through gustatory receptor neurons in Drosophila.
bioRxiv doi.org/10.1101/2022.03.09.483541 (2022). [link]Zeng X, Komanome Y, Kawasaki T, Inada K, Jonaitis J, Pulver SR, Kazama H*, Nose A*. An electrically-coupled pioneer circuit enables motor development via proprioceptive feedback in Drosophila embryos.
Current Biology 31, 5327-5340 (2021). [link] [Dispatch]Endo K, Tsuchimoto Y, Kazama H. Synthesis of Conserved Odor Object Representations in a Random, Divergent-Convergent Network.
Neuron 108, 367-381 (2020). [link]Shiozaki HM, Ohta K, Kazama H. A multi-regional network encoding heading and steering maneuvers in Drosophila.
Neuron 106, 126-141 (2020). [link] [Previews]Ando T, Sekine S, Inagaki S, Misaki K, Badel L, Moriya H, Sami MM, Chihara T, Kazama H, Yonemura S, Hayashi S. Nanopore formation in the cuticle of the insect olfactory sensillum.
Current Biology 29, 1512-1520 (2019). [link]Fujisawa S and Kazama H. Circuits and neural dynamics underlying behavior.
Neuroscience Research 140, 1-2 (2019). [link]Mercier D, Tsuchimoto Y, Ohta K, Kazama H. Olfactory landmark-based communication in interacting Drosophila.
Current Biology 28, 2624-2631 (2018). [link]Takagi S, Cocanougher BT, Niki S, Miyamoto D, Kohsaka H, Kazama H, Fetter RD, Truman JW, Zlatic M, Cardona A, Nose A. Divergent connectivity of homologous command-like neurons mediates segment-specific touch responses in Drosophila.
Neuron 96, 1373-1387 (2017). [link]Shiozaki HM and Kazama H. Parallel encoding of recent visual experience and self-motion during navigation in Drosophila.
Nature Neuroscience 20, 1395-1403 (2017). [link] [supplement] [News and Views]Inada K, Tsuchimoto Y, Kazama H. Origins of cell-type-specific olfactory processing in the Drosophila mushroom body circuit.
Neuron 95, 357-367 (2017). [pdf] [supplement]Badel L, Ohta K, Tsuchimoto Y, Kazama H. Decoding of context-dependent olfactory behavior in Drosophila.
Neuron 91, 155-167 (2016). [pdf] [supplement]Kazama H. Systems neuroscience in Drosophila: conceptual and technical advantages.
Neuroscience 296, 3-14 (2015). [pdf]Oizumi M, Satoh R, Kazama H, Okada M. Functional differences between global pre- and postsynaptic inhibition in the Drosophila olfactory circuit.
Frontiers in Computational Neuroscience 6:14 (2012). [pdf]Kazama H, Yaksi E, Wilson RI. Cell death triggers olfactory circuit plasticity via glial signaling in Drosophila.
The Journal of Neuroscience 31, 7619-7630 (2011). [pdf] [This Week in The Journal]Satoh R, Oizumi M, Kazama H, Okada M. Mechanisms of maximum information preservation in the Drosophila antennal lobe.
PLoS One 5 (5), e10644 (2010). [pdf]Kazama H and Wilson RI. Origins of correlated activity in an olfactory circuit.
Nature Neuroscience 12, 1136-1144 (2009). [pdf] [supplement]Kazama H and Wilson RI. Homeostatic matching and nonlinear amplification at identified central synapses.
Neuron 58, 401-413 (2008). [pdf] [supplement]
教材・エッセー
風間北斗 (2021). 香料 No.292.「匂いオブジェクトの脳内表現の生成」
永井健治、小澤岳昌編集(2019)「実験医学別冊 発光イメージング実験ガイド」羊土社、第15章「自由行動するショウジョウバエからの神経活動計測」、Damien Mercier、髙木(槌本)佳子、太田和美、風間北斗
風間北斗 (2017). Aroma Research Vol.18 No.2.「神経細胞集団の活動からにおいの好き嫌いを解読する」
テルモ生命科学芸術財団(2017).「脳の神秘を探ってみよう」生命科学者21人の特別授業、朝日新聞出版社、「においの脳科学」
理化学研究所脳科学総合研究センター編集(2016). つながる脳科学「心のしくみ」に迫る脳研究の最前線(ブルーバックス)、第4章 外界とつながる脳
風間北斗 (2014). 金澤一郎, 宮下保司 監修、「カンデル神経科学」メディカル・サイエンス・インターナショナル、第32章 においと味:化学感覚 翻訳
Kazama, H. (2012). Learning from a small brain. Neuroscience News. [pdf]
風間北斗 (2009). ウェブ学習教材作成「ノンネイティブのための英語プレゼン法」