TAKEI Yosuke

Researcher's full information

Articles

• Transforming growth factor-β1 in the cerebrospinal fluid of patients with distinct neurodegenerative diseases.
  Itoh J; Koide T; Tomidokoro Y; Takei Y; Ishii Kazuhiro; T...
  J Clin Neurosci/35/pp.35-47, 2017-01
  
  PubMed
• MafB is required for development of the hindbrain choroid plexus.
  Koshida Ryusuke (Corresponding author); Hisashi Oishi; Mi...
  Biochem Biophys Res Commun./483(1)/pp.288-293, 2017-01
  
  PubMed
• Microtubule-Binding Proteins Support Synaptic Plasticity by Regulating Transport of NMDA Receptors
  武井 陽介; 廣川　信隆
  KENBIKYO/51(1)/pp.9-12, 2016-04
  
  CiNii
• My profile and Future Research
  武井 陽介
  Acta Anatomica Nipponica/91/pp.19-20, 2016-03
• Defects in Synaptic Plasticity, Reduced NMDA-Receptor Transport, and Instability of Postsynaptic Density Proteins in Mice Lacking Microtubule-Associated Protein 1A
  Takei Yosuke; Kikkawa Yayoi S.; Atapour Nafiseh; Hensc...
  JOURNAL OF NEUROSCIENCE/35(47)/pp.15539-15554, 2015-11
  
  PubMed Tsukuba Repository
• Characterizing KIF16B in neurons reveals a novel intramolecular "stalk inhibition" mechanism that regulates its capacity to potentiate the selective somatodendritic localization of early endosomes.
  Farkhondeh A; Niwa S; Takei Y; Hirokawa N
  The Journal of neuroscience/35(12)/pp.5067-5086, 2015-03
• Molecular motor KIF5A is essential for GABA(A) receptor transport, and KIF5A deletion causes epilepsy.
  Nakajima K; Yin X; Takei Y; Seog DH; Homma N; Hirokawa N
  Neuron/76(5)/pp.945 -961, 2012-12
• Regulation of NMDA receptor transport: a KIF17-cargo binding/releasing underlies synaptic plasticity and memory in vivo.
  Yin X; Feng X; Takei Y; Hirokawa N
  The Journal of neuroscience/32(16)/pp.5486-5499, 2012-04
• Motor protein KIF1A is essential for hippocampal synaptogenesis and learning enhancement in an enriched environment.
  Kondo M; Takei Y; Hirokawa N
  Neuron/73 (4)/pp.743-757, 2012-02
• Molecular motor KIF17 is fundamental for memory and learning via differential support of synaptic NR2A/2B levels.
  Yin X; Takei Y; Kido MA; Hirokawa N
  Neuron/70(2)/pp.310-325, 2011-04
• Kinesin-1/Hsc70-dependent mechanism of slow axonal transport and its relation to fast axonal transport.
  Terada S; Kinjo M; Aihara M; Takei Y; Hirokawa N
  The EMBO journal/29(4)/pp.843-854, 2010-02
• KIF26A is an unconventional kinesin and regulates GDNF-Ret signaling in enteric neuronal development.
  Zhou R; Niwa S; Homma N; Takei Y; Hirokawa N
  Zhou R, Niwa S, Homma N, Takei Y, Hirokawa N Cell 139(4) 802-813 2009年11月/139(4)/pp.802-813, 2009-11
• KIF4 motor regulates activity-dependent neuronal survival by suppressing PARP-1 enzymatic activity.
  Midorikawa R; Takei Y; Hirokawa N
  Midorikawa R, Takei Y, Hirokawa N/125(2)/pp.371-383, 2006-04
• Kinesin superfamily protein 2A (KIF2A) functions in suppression of collateral branch extension.
  Homma N; Takei Y; Tanaka Y; Nakata T; Terada S; Kikkawa M; Noda...
  Cell/114(2)/pp.229-239, 2003-07