Chia, XW., Tan, JK., A, LF., Kamigaki, T. and Makino, H.* (2023). Emergence of cortical network motifs for short-term memory during learning. Nat Commun., 14, 6869. (*Corresponding author)
Makino, H.* (2023). Arithmetic value representation for hierarchical behavior composition. Nat Neurosci., 26(1): 140-149. (*Corresponding author)
Suhaimi, A., Lim, AWH., Chia, XW., Li, C., and Makino, H.* (2022). Representation learning in the artificial and biological neural networks underlying sensorimotor integration. Science Advances 8, eabn0984. (*Corresponding author)
Makino, H.* (2019). Top-down control: a unified principle for cortical learning. Neuroscience Research. 141:23-28. (*Corresponding author)
Makino, H.*, Ren, C., Liu, H., Kim, A.N., Kondapaneni, N., Liu, X., Kuzum, D., and Komiyama, T.* (2017). Transformation of Cortex-wide Emergent Properties during Motor Learning. Neuron 94, 880-890 e888. (*Corresponding author)
Makino, H., Hwang, E.J., Hedrick, N.G., and Komiyama, T. (2016). Circuit Mechanisms of Sensorimotor Learning. Neuron 92, 705-721.
Makino, H., and Komiyama, T. (2015). Learning enhances the relative impact of top-down processing in the visual cortex. Nat Neurosci 18, 1116-1122.
Makino, H., and Malinow, R. (2011). Compartmentalized versus global synaptic plasticity on dendrites controlled by experience. Neuron 72, 1001-1011.
Makino, H., and Malinow, R. (2009). AMPA receptor incorporation into synapses during LTP: the role of lateral movement and exocytosis. Neuron 64, 381-390.
Tashiro, A., Makino, H., and Gage, F.H. (2007). Experience-specific functional modification of the dentate gyrus through adult neurogenesis: a critical period during an immature stage. J Neurosci 27, 3252-3259.