| Cerebellar roles in self-timing for sub-and supra-second intervals S Ohmae, J Kunimatsu, M Tanaka Journal of Neuroscience 37 (13), 3511-3522, 2017 | 75 | 2017 |
| Different contributions of preparatory activity in the basal ganglia and cerebellum for self-timing J Kunimatsu, TW Suzuki, S Ohmae, M Tanaka Elife 7, e35676, 2018 | 70 | 2018 |
| Roles of the primate motor thalamus in the generation of antisaccades J Kunimatsu, M Tanaka Journal of Neuroscience 30 (14), 5108-5117, 2010 | 67 | 2010 |
| Contribution of the central thalamus to the generation of volitional saccades M Tanaka, J Kunimatsu European Journal of Neuroscience 33 (11), 2046-2057, 2011 | 51 | 2011 |
| Roles of the cerebellum in motor preparation and prediction of timing M Tanaka, J Kunimatsu, TW Suzuki, M Kameda, S Ohmae, A Uematsu, ... Neuroscience 462, 220-234, 2021 | 45 | 2021 |
| Tonic firing mode of midbrain dopamine neurons continuously tracks reward values changing moment-by-moment Y Wang, O Toyoshima, J Kunimatsu, H Yamada, M Matsumoto Elife 10, e63166, 2021 | 41 | 2021 |
| The caudal part of putamen represents the historical object value information J Kunimatsu, K Maeda, O Hikosaka Journal of Neuroscience 39 (9), 1709-1719, 2019 | 39 | 2019 |
| Correlation between pupil size and subjective passage of time in non-human primates TW Suzuki, J Kunimatsu, M Tanaka Journal of Neuroscience 36 (44), 11331-11337, 2016 | 37 | 2016 |
| Alteration of the timing of self‐initiated but not reactive saccades by electrical stimulation in the supplementary eye field J Kunimatsu, M Tanaka European Journal of Neuroscience 36 (9), 3258-3268, 2012 | 32 | 2012 |
| Implications of lateral cerebellum in proactive control of saccades J Kunimatsu, TW Suzuki, M Tanaka Journal of neuroscience 36 (26), 7066-7074, 2016 | 28 | 2016 |
| Striatal dopamine modulates timing of self-initiated saccades J Kunimatsu, M Tanaka Neuroscience 337, 131-142, 2016 | 22 | 2016 |
| Primate amygdalo-nigral pathway for boosting oculomotor action in motivating situations K Maeda, K Inoue, J Kunimatsu, M Takada, O Hikosaka Iscience 23 (6), 2020 | 18 | 2020 |
| Amygdala activity for the modulation of goal-directed behavior in emotional contexts K Maeda, J Kunimatsu, O Hikosaka PLoS Biology 16 (6), e2005339, 2018 | 16 | 2018 |
| Thalamic roles in eye movements M Tanaka, J Kunimatsu The Oxford Handbook of Eye Movements, 235-256, 2011 | 13 | 2011 |
| Dynamic prospect theory: Two core decision theories coexist in the gambling behavior of monkeys and humans A Tymula, X Wang, Y Imaizumi, T Kawai, J Kunimatsu, M Matsumoto, ... Science Advances 9 (20), eade7972, 2023 | 6 | 2023 |
| Environment-based object values learned by local network in the striatum tail J Kunimatsu, S Yamamoto, K Maeda, O Hikosaka Proceedings of the National Academy of Sciences 118 (4), e2013623118, 2021 | 5 | 2021 |
| Application of radiosurgical techniques to produce a primate model of brain lesions J Kunimatsu, N Miyamoto, M Ishikawa, H Shirato, M Tanaka Frontiers in systems neuroscience 9, 67, 2015 | 5 | 2015 |
| Distinct roles of the orbitofrontal cortex, ventral striatum, and dopamine neurons in counterfactual thinking of decision outcomes M Yun, M Nejime, T Kawai, J Kunimatsu, H Yamada, HGR Kim, ... Science advances 9 (32), eadh2831, 2023 | 1 | 2023 |
| Dynamic prospect theory-two core economic decision theories coexist in the gambling behavior of monkeys A Tymula, Y Imaizumi, T Kawai, J Kunimatsu, M Matsumoto, H Yamada bioRxiv, 2021.04. 04.438415, 2021 | 1 | 2021 |
| Amygdala controls saccade and gaze physically, motivationally, and socially K Maeda, K Inoue, J Kunimatsu, M Takada, O Hikosaka bioRxiv, 608703, 2019 | 1 | 2019 |
Masaki TanakaHokkaido UniversityVerified email at med.hokudai.ac.jp
