Paper

1. Distinct subpopulations of mechanosensory chordotonal organ neurons elicit grooming of the fruit fly antennae. Hampel S, Eichler K, Yamada D, Bock DD, Kamikouchi A, Seeds AM. Group of Neural CircuiteLife. 9:e59976 DOI: 10.7554/eLife.59976, Oct 26 2020. Open Access
2. Assessing the acoustic behaviour of Anopheles gambiae s.l. dsxF mutants: Implications for Vector Control. Su MP, Georgiades M, Bagi J, Kyrou K, Crisanti A, Albert JT. Group of Neural CircuitParasites & Vectors. 23: 9. DOI: 10.1016/j.isci.2020.101486, 07 October 2020.Open Access
3. Regulation of Gliogenesis by lin-32/ Atoh1 in Caenorhabditis elegansZhang A, Noma K, Yan D Group of Nutrious NeurologyG3, 2020 September 1Open Access
4. Neuron ID dataset facilitates neuronal annotation for whole-brain activity imaging of C. elegansYu Toyoshima, Stephen Wu, Manami Kanamori, Hirofumi Sato, Moon Sun Jang, Suzu Oe, Yuko Murakami, Takayuki Teramoto, Chanhyun Park, Yuishi Iwasaki, Takeshi Ishihara, Ryo Yoshida, Yuichi Iino.Group of Molecular NeurobiologyBMC Biology volume 18, Article number: 30, DOI: 10.1186/s12915-020-0745-2, 2020 Mar. 19 Open Access
5. Designer Palmitoylation Motif-Based Self-Localizing Ligand for Sustained Control of Protein Localization in Living Cells and Caenorhabditis elegans. Nakamura A, Oki C, Sawada S, Yoshii T, Kuwata K, Rudd AK, Devaraj NK, Noma K, Tsukiji S Group of Nutrious NeurologyACS Chem Biol. 2020 Apr 17;15(4):837-843.[PubMed]
6. Wiring patterns from auditory sensory neurons to the escape and song-relay pathways in fruit flies. Kim H, Horigome M, Ishikawa Y, Li F, Lauritzen JS, Card G, Bock DD, Kamikouchi A Group of Neural CircuitThe Journal of Comparative Neurology, 03 February 2020Open Access
7. Age‐dependent changes in response property and morphology of a thermosensory neuron and thermotaxis behavior in Caenorhabditis elegansHuang T, Matsuyama J. H, Tsukada Y, Singhvi A, Syu R, Lu Y, Shaham S, Mori Iand Pan C Group of Molecular NeurobiologyAging Cell First published:19 April 2020Open Access
8. Neural coding of thermal preferences in the nematode Caenorhabditis elegansMatsuyama J. H and Mori I. Group of Molecular NeurobiologyeNeuro 6 April 2020, ENEURO.0414-19.2020Open Access
9. Context-dependent operation of neural circuits underlies a navigation behavior in Caenorhabditis elegansIkeda M, Nakano S, Giles AC, Xu L, Costa WS, Gottschalk A and Mori I. Group of Molecular NeurobiologyPNAS March 17, 2020 117 (11) 6178-6188Open Access
10. Presynaptic MAST kinase controls opposing postsynaptic responses to convey stimulus valence in Caenorhabditis elegansNakano S, Ikeda M, Tsukada Y, Fei X, Suzuki T, Niino Y, Ahluwalia R, Sano A, Kondo R, Ihara K, Miyawaki A, Hashimoto K, Higashiyama T and Mori I. Group of Molecular NeurobiologyPNAS January 21, 2020 117 (3) 1638-1647Open Access
11. The Caenorhabditis elegans INX‐4/Innexin is required for the fine‐tuning of temperature orientation in thermotaxis behavior Tsukamoto S, Emmei T, Nakano S, Nishio N, Sasakura H and Mori I. Group of Molecular NeurobiologyGenes to Cells, 2020 Jan 9. doi: 10.1111/gtc.12745.Open Access
12. A feedforward circuit regulates action selection of pre-mating courtship behavior in female DrosophilaIshimoto H and Kamikouchi A. Group of Nutrious Neurology, Group of Neural CircuitCurr Biol, 30:1–12, DOI:https://doi.org/10.1016/j.cub.2019.11.065Open Access

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