研究概要

主要論文

「*」は、理研外のみでの成果です。

• 1. *Lavaud S, Bichara C, D’Andola M, Yeh S, Takeoka A.
  "Two inhibitory neuronal classes govern acquisition and recall of spinal sensorimotor adaptation."
  Science 384,194-201. (2024), doi:10.1126/science.adf6801
• 2. *Lavaud S, Bichara C, D’Andola M, Yeh S, Takeoka A.
  "Electrophysiological signatures reveal spinal cord mechanisms for a lasting sensorimotor adaptation."
  BioRxiv (2022), doi:10.1101/2022.03.30.486422
• 3. *Bertels H, Vicente-Ortiz G, El Kanbi K, Takeoka A.
  "Neurotransmitter phenotype switching by spinal excitatory interneurons regulates locomotor recovery after spinal cord injury"
  Nature Neuroscience 25 (5) 617–629. (2022)
• 4. *Takeoka A.:
  "Proprioception: Bottom-up directive for motor recovery after spinal cord injury."
  Neurosci Res 154, 1-8. (2020)
• 5. *Takeoka A and Arber S.
  "Functional local proprioceptive feedback circuits initiate and sustain locomotor recovery after spinal cord injury."
  Cell Reports 27 (1): 71–85.e3 (2019)
• 6. *Ruder L, Takeoka A, Arber S.
  "Long-distance descending spinal neurons ensure quadrupedal locomotor stability."
  Neuron 92 (5): 1063-1078 (2016)
• 7. *Basaldella E, Takeoka A, Sigrist M, and Arber S.
  "Multisensory signaling shapes vestibulo-motor circuit specificity."
  Cell 163 (2): 301-12 (2015)
• 8. *Takeoka A, Vollenweider I, Courtine G, and Arber S.
  "Muscle spindle feedback directs locomotor recovery and circuit reorganization after spinal cord injury."
  Cell 159 (7): 1626-1639 (2014)
• 9. *Takeoka A, Jindrich DL, Muñoz-Quiles C, Zhong H, van den Brand R, Pham DL, Ziegler MD, Ramon-Cueto A, Roy RR, Edgerton VR, and Phelps PE.
  "Axon regeneration can facilitate or suppress hindlimb function after Olfactory Ensheathing Glia transplantation."
  J. Neurosci 31: 4298-4310. (2011)

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