Research field (2):
Basic brain sciences
, Neuroscience - general
Research theme for competitive and other funds (2):
2014 - 2018 Role of mirror neuron system for social learning in common marmosets
2011 - 2013 mirror neuron system in common marmosets
Papers (12):
Taku Banno, Harry Shirley, Yonatan I Fishman, Yale E Cohen. Changes in neural readout of response magnitude during auditory streaming do not correlate with behavioral choice in the auditory cortex. Cell reports. 2023. 42. 12. 113493-113493
Taku Banno, Jean-Hugues Lestang, Yale E Cohen. Computational and neurophysiological principles underlying auditory perceptual decisions. Current Opinion in Physiology. 2020. 18. 20-24
Tani T, Abe H, Hayami T, Banno T, Miyakawa N, Kitamura N, Mashiko H, Ichinohe N, Suzuki W. Sound Frequency Representation in the Auditory Cortex of the Common Marmoset Visualized Using Optical Intrinsic Signal Imaging. eNeuro. 2018. 5. 2
Yale E. Cohen, Taku Banno, Jaejin Lee, Francisco Rodriguez-Campos, Matthew Schaff, Lalitta Suriya-Arunroj, Joji Tsunada. Neurocomputational Mechanisms Contributing to Auditory Perception. Acta Acustica united with Acustica. 2018. 104. 5. 870-873
Nobuyuki Kawai, Yasue Miyuki, Nakagami Akiko, Banno Taku, Ichinohe Noritaka. Marmosets with fetal exposure to valproic acid fail to recognize third-party non-reciprocal interactions. INTERNATIONAL JOURNAL OF PSYCHOLOGY. 2016. 51. 258-258
Akiko Nakagami, Miyuki Yasue, Taku Banno, Keiko Nakagaki, Noritaka Ichinohe, Nobuyuki Kawai. A primate model for autism with common marmosets show behavioral deficits in the threemajor symptoms of autism. INTERNATIONAL JOURNAL OF PSYCHOLOGY. 2016. 51. 1178-1178
安江 みゆき, 中神 明子, 坂野 拓, 中垣 慶子, 一戸 紀孝, 川合 伸幸. Marmoset models of autism did not discriminate reciprocal/non-reciprocal interactions between third-parties (ヒューマンコミュニケーション基礎). 電子情報通信学会技術研究報告 = IEICE technical report : 信学技報. 2016. 115. 471. 11-15
Tomoyuki Namima, Masaharu Yasuda, Taku Banno, Gouki Okazawa, Hidehiko Komatsu. Effects of luminance contrast on the color selective responses in macaque V4 and inferior temporal cortex. I-PERCEPTION. 2014. 5. 4. 215-215
Marmoset monkeys are sensitive to third-party reciprocity. JCSS Japanese Congnitive Science Society. 2014. 413-416
Neural correlates of auditory stream segregation in the auditory pathways of macaque monkeys
(Advances and Perspectives in Auditory Neuroscience (APAN) 2019)
Marmoset as a model for human speech perception and its sdisorder
(Annual Meeting of Japan Society for Marmoset Research 2018)
Slow periodic modulations in conspecific vocalizations are over-represented in the primary auditory cortex of common marmosets
(The 39th Annual meeting of the Japan Neuroscience Society 2016)
Neural mechanisms of vocal communication signal processing in the auditory cortex of common marmosets
(Ultrasonic Communication in Rodents 2014)
Anatomical connectivity of color-processing modules in monkey inferior temporal cortex
(The 33rd Annual meeting of the Japan Neuroscience Society 2010)
Professional career (1):
博士(理学) (総合研究大学院大学)
Awards (3):
2016/12 - Human Communication Awards Marmoset models of autism did not discriminate reciprocal non-reciprocal interactions between third-parties
2014/03 - 国立精神・神経医療研究センター 神経研究所 The Most Promising Presentation賞 マーモセットは第三者の互恵性を評価する
2013/03 - 国立精神・神経医療研究センター 神経研究所 The Most Promising Presentation賞 バルプロ酸がマーモセットの音声発達に与える影響
Association Membership(s) (3):
Japan Society for Marmoset Research
, Society for Neuroscience
, The Japan Neuroscience Society
