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PUBLICATIONS

- Original Articles (Selected) -

  • Chong HR., Ranjbar-Slamloo Y., Ho MZH., Ouyang X., and Kamigaki T.(2023) Functional alterations of the prefrontal circuit underlying cognitive aging in mice. Nature Communications,14, Article number: 7254.

  • Hu F., Kamigaki T., Zhang Z., Zhang S., Dan U., and Dan Y. (2019) Prefrontal Corticotectal Neurons Enhance Visual Processing through the Superior Colliculus and Pulvinar Thalamus. Neuron, 104, 1141-1152.

  • Kamigaki T., and Dan Y. (2017). Delay Activity of Specific Prefrontal Interneuron Subtypes Modulates Memory-Guided  Behavior. Nature Neuroscience, 20, 854-863.

       * F1000Prime Recommended Article

       * Highlighted by: Bray N. (2017). Nature Reviews Neuroscience, 18, 324.

       * Highlighted by: Dzirasa K. (2017). Science Translational Medicine, 9, eaan3779

  • Zhang S., Xu M., Kamigaki T., Hoang Do J. P., Chang W. C., Jenvay S., Miyamichi K., Luo L., and Dan Y. (2014). Long-Range and Local Circuits for Top-Down Modulation of Visual Cortex Processing. Science, 345, 660-665.

  • Kamigaki T., Fukushima T., and Miyashita Y. (2009). Cognitive set reconfiguration signaled by macaque posterior parietal neurons. Neuron, 61, 941-951.

- Original Articles (Full) -

  • Chong HR., Ranjbar-Slamloo Y., Ho MZH., Ouyang X., and Kamigaki T.(2023) Functional alterations of the prefrontal circuit underlying cognitive aging in mice. Nature Communications,14, Article number: 7254.

  • Hu F., Kamigaki T., Zhang Z., Zhang S., Dan U., and Dan Y. (2019) Prefrontal Corticotectal Neurons Enhance Visual Processing through the Superior Colliculus and Pulvinar Thalamus. Neuron, 104, 1141-1152.

  • Kamigaki T., and Dan Y. (2017) Delay Activity of Specific Prefrontal Interneuron Subtypes Modulates Memory-Guided  Behavior. Nature Neuroscience, 20, 854-863.

      * F1000Prime Recommended Article

      * Highlighted by: Bray N. (2017) Nature Reviews Neuroscience, 18, 324.

      * Highlighted by: Dzirasa K. (2017) Science Translational Medicine, 9, eaan3779

  • Zhang S., Xu M., Kamigaki T., Hoang Do J. P., Chang W. C., Jenvay S., Miyamichi K., Luo L., and Dan Y. (2014) Long-Range and Local Circuits for Top-Down Modulation of Visual Cortex Processing. Science, 345, 660-665.

  • Kamigaki T., Fukushima T., Tamura K., and Miyashita Y. (2012) Neurodynamics of cognitive set shifting in monkey frontal cortex and its causal impact on behavioral flexibility. Journal of Cognitive Neuroscience, 24, 2171-2185.

  • Matsui T., Koyano K.W., Tamura K., Osada T., Adachi Y., Miyamoto K., Chikazoe J., Kamigaki T., and Miyashita Y. (2012) fMRI activity in the macaque cerebellum evoked by intracortical microstimulation of the primary somatosensory cortex: evidence for polysynaptic propagation. PLoS ONE, 7, e47515.

  • Kamigaki T., Fukushima T., and Miyashita Y. (2011) Neuronal signal dynamics during preparation and execution for behavioral shifting in macaque posterior parietal cortex. Journal of Cognitive Neuroscience, 23, 2503-2520.

  • Kamigaki T., Fukushima T., and Miyashita Y. (2009) Cognitive set reconfiguration signaled by macaque posterior parietal neurons. Neuron, 61, 941-951.

Original Articles (Full list)

- Review Articles -

  • Kamigaki T. (2019) Prefrontal circuit organization for executive control. Neuroscience Research, 140, 23-36.

  • Kamigaki T. (2019) Dissecting executive control circuits with neuron types. Neuroscience Research, 141, 13-22.

Review Articles

- Book Chapters -

  • Fukushima T., Kasahara H., Kamigaki T., and Miyashita Y. (2008) High-Level Visual Processing. (pp. 11-28). The Senses: A Comprehensive Reference (ed. Masland, R., Albright T.), Elsevier.

  • Fukushima T., Kasahara H., Kamigaki T., and Miyashita Y. (2008) Memory Representation. (number 750) New Encyclopedia of Neuroscience (ed. Squire, L.R.), Elsevier.

Book Chapters

- Invited Presentations -

  • Local and long-range circuit mechanisms for working memory, Seminar, Kyoto University Graduate School of Medicine, Kyoto, Japan, August 2018.

  • Local and long-range circuit mechanisms underlying memory-guided behavior, Seminar, Osaka City University Graduate School of Medicine, Osaka, Japan, August 2018.

  • Local and long-range circuits underlying memory-guided behavior, Seminar, RIKEN Center for Biosystems Dynamics Research, Kobe, Japan, July 2018.

  • Optical Dissection of Prefrontal Microcircuits for Working Memory, BSI Forum, RIKEN Brain Science Institute, Saitama, Japan, July 2017.

  • Prefrontal cortical microcircuits for memory-guided behavior, Seminar, National Institute for Physiological Sciences, Aichi, Japan, July 2017.

  • Prefrontal circuits for memory-guided behavior, WPI-IIIS Seminar, International Institute for Integrative Sleep Medicine, University of Tsukuba, Ibaraki, Japan, July 2017.

  • Prefrontal cortical mechanisms for memory-guided behavior, UCSC Neuroclub, UCSC Biomedial Research, University of California, Santa Cruz, Santa Cruz, CA, October 2016.

  • Cognitive set-shifting mechanisms in the macaque parietal cortex, Annual Meeting of the Japan Neuroscience Society, Kobe, Japan, September 2010.

  • Cognitive flexibility in the primate brain, Seminar, Department of Molecular and Cell Biology, University of California, Berkeley, Berkeley, CA, June 2010.

  • Cortical mechanisms for cognitive flexibility in primates, Seminar, McGovern Institute for Brain Research, Massachusetts Institute of Technology, Cambridge, MA, June 2010.

Invited Presentaion

- Conference Presentations -

  • Kamigaki T., and Dan Y. Pathway-specific delay activity in the prefrontal cortex during memory-guided behavior. Annual Meeting of the Japan Neuroscience Society, 1P-296, Kobe, Japan, July 2018.

  • Kamigaki T., and Dan Y. Specific roles of GABAergic interneuron subtypes in the prefrontal cortex for memory-guided behavior. Annual Meeting of the Japan Neuroscience Society, 3P-265, Chiba, Japan, July 2017.

  • Kamigaki T., and Dan Y. Functional characterization of specific interneuron subtypes in the prefrontal cortex for memory-guided behavior. Society for Neuroscience, 805.17, San Diego, USA, November 2016.

  • Kamigaki T., and Dan Y. Functional Roles of Specific Interneuron Subtypes in the Prefrontal Cortex for Memory-guided Behavior. HHMI Scientific Meeting, Ashburn, USA, September, 2016.

  • Perwez, N., Kamigaki T., and Dan Y. Causal Role of the Prefrontal Cortex in the Top-Down Modulation of Sensory Processing and Working Memory. Cognitive Neuroscience Society, San Francisco, USA, March, 2015.

  • Zhang S., Xu M., Kamigaki T., Jenvayand S., and Dan Y. Long-Range and Local Circuits for Top-Down Modulation of Visual Cortical Processing. COSYNE 14, Salt Lake City, USA, March 2014.

  • Perwez, N., Kamigaki T., and Dan Y. Role of Prefrontal cortex in top-down modulation of sensory processing and working memory. Biology Scholars Program Undergraduate Research Symposium, Berkeley, USA, August, 2014.

  • Perwez, N., Kamigaki T., and Dan Y. Prefrontal cortex in top-down regulation of visual processing and working memory. Initiative to Maximizing Student Development Research Symposium, Berkeley, USA, May, 2014.

  • Kamigaki T., Tamura K., and Miyashita Y. Brain-wide networks and local neurocircuitries for higher cognitive function in human and nonhuman primates. Global COE 4th Retreat International Symposium, Tokyo, Japan, March 2011.

  • Kamigaki T., Fukushima T., and Miyashita Y. Neuronal signals reflecting preparatory and executive processes for behavioral shifting in macaque posterior parietal cortex. Society for Neuroscience, 805.17, San Diego, USA, November 2010.

  • Kamigaki T., and Miyashita Y. Cognitive set-shifting mechanisms in the macaque parietal cortex. Annual Meeting of the Japan Neuroscience Society, S1-2-1-3, Kobe, Japan, September 2010.

  • Kamigaki T., Fukushima T., and Miyashita Y. Execution and preparatory signals for cognitive set shifting in monkey posterior parietal cortex. Global COE 3rd Retreat International Symposium, B-2, Tokyo, Japan, March 2010.

  • Kamigaki T., Fukushima T., and Miyashita Y. Neuronal activity in the macaque posterior parietal cortex reflecting reconfiguration of cognitive set. International Congress of Physiological Sciences, P5AM-5-6, Kyoto, Japan, August 2009.

  • Kamigaki T., Fukushima T., and Miyashita Y. Macaque parietal cortex neurons signaling cognitive set reconfiguration. UCSF Neuroscience Symposium, Asilomar, USA, September 2009.

  • Kamigaki T., Fukushima T., and Miyashita Y. Neuronal modulation in the posterior parietal cortex of monkeys performing an analog of the Wisconsin Card Sorting Test. Annual Meeting of the Japan Neuroscience Society, O2-I02, Tokyo, Japan, July 2008.

  • Kamigaki T., Fukushima T., and Miyashita Y. Neuronal activity in the macaque posterior parietal cortex during an analog of the Wisconsin Card Sorting Test. Global COE 1st Retreat International Symposium, Chiba, Japan, 2008.

  • Kamigaki T., Fukushima T., and Miyashita Y. Characterization of neuronal activity in the macaque posterior parietal cortex during a cognitive set-shifting task. Society for Neuroscience, 558.10, San Diego, USA, November 2007.

  • Kamigaki T., Fukushima T., and Miyashita Y. Parietal contribution to cognitive set shifting and representation. COE Project “Multidisciplinary approach to the biological signaling mechanism”, 4th Symposium, Hakone, Japan, March 2006.

  • Fukushima T., Kasahara H., Kamigaki T., and Miyashita Y. Neuronal activity related to cognitive set shift in macaque ventral periarcuate area. COE Project “Multidisciplinary approach to the biological signaling mechanism”, 4th Symposium, Hakone, Japan, March 2006.

  • Kamigaki T., Kasahara H., Fukushima T., and Miyashita Y. Neuronal activity in the macaque frontal cortex during cognitive set shifting. COE Project “Multidisciplinary approach to the biological signaling mechanism”, 3rd Symposium, Shonan, Japan, March 2005.

Conference Presentations
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