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D1²“¡D‚³‚ñ‚ªu’†’JˆãHŒv‘ª‹ZpU‹»à’cv‚ÌŠCŠOŒ¤•¬‹à‚ðŽó‚¯‚ÄA‘æ71‰ñ•Ä‘—Õ°‰»Šw‰ï(8/3-9)‚ÅŒ¤‹†¬‰Ê‚ð”­•\‚µ‚Ü‚·B

2019”N5ŒŽ22“ú
5ŒŽ22“ú•t‚¯‚Ì“úŒoŽY‹ÆV•·‚ÉSci Rep‚ÌŒ¤‹†“à—e‚ªuŽ‹_ŒoĶ‚µ‚â‚·‚¢ƒ}ƒEƒXv‚Æ‚µ‚ÄŒfÚ‚³‚ê‚Ü‚µ‚½B

2019”N5ŒŽ15“ú
‚‘º‚³‚ñ‚ªNeuro2019‚Ì‘“àTravel Award‚ðŽóÜ‚µAŒ¤‹†¬‰Ê‚ð”­•\‚µ‚Ü‚·B

2019”N5ŒŽ14“ú
CRMP2‚̃Šƒ“Ž_‰»—}§‚ªŽ‹_Œo‘¹Œã‚Ì_ŒoĶ‚ð‘£i‚·‚邱‚Æ‚ðŽ¦‚µ‚½˜_•¶‚ªSci Rep‚ÉŒfÚ‚³‚êAƒvƒŒƒXƒŠƒŠ[ƒX‚ðs‚È‚¢‚Ü‚µ‚½B

2019”N5ŒŽ14“ú
–؉ºŒN‚ÌŒ¤‹†¬‰Ê‚ªBBRC‚ÉonlineŒfÚ‚³‚ê‚Ü‚µ‚½B

2019”N4ŒŽ26“ú
Kondo et al. gGenetic inhibition of CRMP2 phosphorylation at serine 522 promotes axonal regeneration after optic nerve injuryh‚ªSci RepŽ‚ɃAƒNƒZƒvƒg‚³‚ê‚Ü‚µ‚½B

2019”N4ŒŽ25“ú
4ŒŽ25“ú(–ØjOB‚Ì’·ˆä~”ŽŽm(Œ»ÝUCLA)‚É‚æ‚éu‰‰‚ªs‚í‚ê‚Ü‚µ‚½B

2019”N4ŒŽ4“ú
ƒƒ“ƒo[‚ðXV‚µ‚Ü‚µ‚½B

2019”N4ŒŽ1“ú
‚‹´”ü—R‹I•‹³‚ª’…”C‚µ‚Ü‚µ‚½B

2019”N3ŒŽ9“ú
‘哇Œ¤10Žü”N‚ðj‚¤‰ï‚ðTWIn‚É‚ÄŠJµ‚Ü‚µ‚½B

2019”N1ŒŽ10“ú
”ŽŽm‰Û’ö‚P”N‚Ì‚‘º—¹‚³‚ñ‚ªAhThe 14th International Conference on Alzheimerfs & Parkinsonfs Diseases (ADPD)h‚ÅJunior Faculty Award‚ðŽóÜ‚µ‚Ü‚µ‚½B‚Ü‚½A‚»‚ÌЉî‹LŽ–‚ª‚’mV•·(1/10•t‚¯)‚Ì’©Š§‚ÅЉ‚ê‚Ü‚µ‚½B

2018”N12ŒŽ13“ú
”ŽŽm‰Û’ö‚P”N‚Ì‚‘º—¹‚³‚ñ‚ªA‰Á“¡‹L”OƒoƒCƒIƒTƒCƒGƒ“ƒXU‹»à’c‚Ìu‰Á“¡‹L”O‘ی𗬕¬v‚ðŽó‚¯A2019 3/26-3/31 Lisbon‚ÅŠJ³‚ê‚éADPD Congress 2019‚ÅŒ¤‹†¬‰Ê‚ð”­•\‚µ‚Ü‚·B

2018”N11ŒŽ13“ú
11ŒŽ13“úB4‚Ìì‰H“c‚³‚ñ‚Æ´‰ª‚³‚ñ‚ªA–{¯‚“™Šw‰@‚ÆNational Junior College (ƒVƒ“ƒKƒ|[ƒ‹)‚©‚ç‚ÌTWIns—ˆ–K‚̃cƒA[ƒKƒCƒh‚ð‚µ‚Ü‚µ‚½B

2018”N10ŒŽ18“ú
•xŠ~ŒN‚̃p[ƒLƒ“ƒ\ƒ“•aƒ}ƒEƒXƒ‚ƒfƒ‹‚ÉŠÖ‚·‚é˜_•¶‚ªGenes to Cells‚ɃAƒNƒZƒvƒg‚É‚È‚è‚Ü‚µ‚½B

2018”N9ŒŽ5“ú
_ŒoƒZƒ“ƒ^[r–ØŒ¤A‰¡•lŽs‘åEŒÜ“ˆŒ¤‹†Žº‚Æ‚Ì‹¤“¯Œ¤‹†‚ªNeurosci Res‚Éon lineŒfÚ‚³‚ê‚Ü‚µ‚½B

2018”N7ŒŽ17“ú
ã“cŒN‚̘_•¶‚ª J Comp Neurol‚ɃAƒNƒZƒvƒg‚É‚È‚è‚Ü‚µ‚½B

2018”N5ŒŽ11“ú
‰¡•lŽs‘åEŒÜ“ˆŒ¤‹†Žº‚Æ‚Ì‹¤“¯Œ¤‹†‚ªNeurochemistry International ‚ɃAƒNƒZƒvƒg‚É‚È‚è‚Ü‚µ‚½B

2018”N5ŒŽ2“ú
_–Ø‚³‚ñ‚Ì—Œ¤”]ƒZƒ“ƒ^[‚Ås‚È‚Á‚½Œ¤‹†‚ª Frontiers in Cellular Neuroscience‚ɃAƒNƒZƒvƒg‚³‚ê‚Ü‚µ‚½B

2018”N4ŒŽ
ƒƒ“ƒo[‚ðXV‚µ‚Ü‚µ‚½B

2018”N3ŒŽ15“ú
‘哇Œ¤”ŽŽm‰Û’öC—¹‚Ì•–Ø‹Å‚³‚ñ‚ÌŒ¤‹†¬‰Ê‚ªCell Reports‚Ìonline”Å‚ÉŒfÚ‚³‚êA ƒvƒŒƒXƒŠƒŠ[ƒX‚³‚ê‚Ü‚µ‚½B —Œ¤”]ƒZƒ“ƒ^[Ž…Œ´Œ¤‹†Žº‚Ås‚È‚í‚ꂽŒ¤‹†‚Å‚·B

2018”N3ŒŽ8“ú
´…•Žè‚ÌŒ¤‹†¬‰Ê‚ª—HŠwp‰@‰pŒêƒy[ƒW‚Æ EurekAlert‚ÉЉ‚ê‚Ü‚µ‚½B

2018”N3ŒŽ1“ú
´…•Žè‚ª‘æ7Šú ƒA[ƒŠ[ƒo[ƒhƒvƒƒOƒ‰ƒ€u§—ãÜv‚ðŽóÜ‚µ‚Ü‚µ‚½B

2018”N2ŒŽ12“ú
‘哇Œ¤‚É5–¼‚ªŒ¤‹†Žº”z‘®‚³‚êAŠ½Œ}‰ï‚ªs‚È‚í‚ê‚Ü‚µ‚½B

2018”N2ŒŽ9“ú
´…—E‹C•ŽèACŽm‚Q”Nã“c‚³‚ñ‚ÌŒ¤‹†¬‰Ê‚ªƒvƒŒƒXƒŠƒŠ[ƒX‚³‚ê‚Ü‚µ‚½B

2018”N1ŒŽ29“ú
´…—E‹C•Žè‚̘_•¶‚ªGlia‚ɃAƒNƒZƒvƒg‚³‚ê‚Ü‚µ‚½B

2017”N12ŒŽ4“ú
12ŒŽ4“ú 16:30‚æ‚èADr. Kavita Shah (Purdue University, USA)‚ð‚¨µ‚«‚µAu‰‰‰ï uChemical Genetic Dissection of Signaling Pathways in Cancer and Alzheimerfs diseasev‚ðŠJµ‚Ü‚µ‚½B

2017”N10ŒŽ26“ú
9ŒŽ“üŠw‚Ì”ŽŽmŒãŠú‰Û’öŠw¶‚Q–¼AŠw•”‚S”N‚P–¼‚ÌŠ½Œ}‰ï‚ðs‚È‚¢‚Ü‚µ‚½B

2017”N9ŒŽ
ƒƒ“ƒo[‚ðXV‚µ‚Ü‚µ‚½B

2017”N10ŒŽ
‰º”—‚³‚ñ‚̘_•¶‚ªDev Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N10ŒŽ
Xu‚³‚ñ‚̘_•¶‚ªDev Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N9ŒŽ
–ìàV‚³‚ñ‚̘_•¶‚ªDev Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N7ŒŽ15“ú
’·ˆä‚³‚ñABaba‚³‚ñ‚ÌCRMP‚ÉŠÖ‚·‚é‘à‚ªMol Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N6ŒŽ21“ú
‰¡•lŽs‘åƒOƒ‹[ƒv‚Æ‚Ì‹¤“¯Œ¤‹†‚ªJ Neurosci‚ÌEarly Release‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N5ŒŽ25“ú
”ŽŽmŒãŠúŠw¶Carolina Fiallos Oliveros‚³‚ñ‚Ì‹LŽ–‚ª‘ˆî“cƒEƒB[ƒNƒŠ[‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N5ŒŽ12“ú
‘Û‹¤“¯Œ¤‹†‚̬‰Ê‚ª•Ä‘‰ÈŠwƒAƒJƒfƒ~[‹I—v‚Ìonline”Å‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N4ŒŽ20“ú
ƒƒ“ƒo[‚ðXV‚µ‚Ü‚µ‚½B

2017”N4ŒŽ
ù–{‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªDev Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

²“¡‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªDev Neurobiol‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N 2ŒŽ14“ú
‘哇Œ¤‚É6–¼‚ªŒ¤‹†Žº”z‘®‚³‚êAŠ½Œ}‰ï‚ªs‚È‚í‚ê‚Ü‚µ‚½B

2017”N 2ŒŽ
‚‘º‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªAJ. Neurosci. Res.‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2017”N 1ŒŽ
‚‰®‚³‚ñ‚ÌCRMP1‚ÆCRMP4Œ‡‘¹ƒ}ƒEƒX‚ÌŽ÷ó“Ë‹NŒ`¬‚ÉŠÖ‚·‚é˜_•¶‚ªBrain ResŽ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

¬‚‚³‚ñ‚̃}ƒEƒXÒ‘‘¹Šƒ‚ƒfƒ‹‚ɑ΂·‚éLKE‚ÌŒø‰Ê‚ÉŠÖ‚·‚é˜_•¶‚ªBBRCŽ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B

2016”N10ŒŽ
‘哇Œ¤‚Ì”ŽŽm‰Û’ö‚Ì—¯Šw¶Liu Pin Wu‚ª—HŠwp‰@‰pŒê”ŃTƒCƒg‚ÌStudent Voices‚ÉЉ‚ê‚Ü‚µ‚½B

2016”N8ŒŽ
‘哇Œ¤‚Ì”ŽŽm‰Û’ö‚Ì—¯Šw¶Carolina Fiallos Oliveros‚ª—HŠwp‰@‰pŒê”ŃTƒCƒg‚ÌStudent Voices‚ÉЉ‚ê‚Ü‚µ‚½B

2016”N5ŒŽ
ŒË‰H‚³‚ñAVš ‚³‚ñA‹gˆä‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ª BBRC Ž‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
PPARγ agonist pioglitazone improves cerebellar dysfunction at pre-Αβ deposition stage in APPswe/PS1dE9 Alzheimerfs disease model mice. BBRC 473:1039-44, 2016
Toba J, Nikkuni M, Ishizeki M, Yoshii A, Watamura N, Inoue T, Ohshima T.

2016”N9ŒŽ
‘ÛƒR[ƒXB4 1–¼AM1 1–¼‚ÌŠw¶‚ª‘哇Œ¤‚̃ƒ“ƒo[‚ɉÁ‚í‚肵‚Ü‚µ‚½B

2016”N9ŒŽ2“ú-9ŒŽ4“ú
Œyˆä‘ò‚ÅA‡“¯ƒ[ƒ~‡h‚ðs‚¢‚Ü‚µ‚½B

2016”N05ŒŽ21“ú
“o“àˆ¤‰¹‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªA J NeurochemistryŽ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Loss of CRMP4 suppresses dopaminergic neuron death in an MPTP-induced mouse model of Parkinsonfs disease.
J Neurochem 137:795-805
›Tonouchi A, Nagai J, Togashi K, Goshima Y, Ohshima T

2016”N4ŒŽ
B4 4–¼AD1 2–¼‚ÌŠw¶‚ª‘哇Œ¤‚̃ƒ“ƒo[‚ɉÁ‚í‚肵‚Ü‚µ‚½B

2016”N3ŒŽ24“ú
’·ˆä~‚³‚ñ‚ªA‘ˆî“c‘åŠw ¬–숲‹L”OŠwpÜ‚ðŽóÜ‚µ‚Ü‚µ‚½B

2016”N3ŒŽ17“ú
’·ˆä~‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªA Mol Cell Neurosci. Ž ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Deletion of Crmp4 attenuates CSPG-induced inhibition of axonal growth and induces nociceptive recovery after spinal cord injury.
›Nagai J, Takaya R, Piao W, Goshima Y, Ohshima T

2016”N3ŒŽ1“ú
’·ˆä~‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªA Exp NeurolŽ ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Inhibition of CRMP2 phosphorylation repairs injured CNS by reducing inhibitory response and enhancing sensitivity to neurotrophic factor
›Nagai J, Owada K, Kitamura Y, Goshima Y, Ohshima T

2015”N12ŒŽ4“ú
’·ˆä~‚³‚ñ‚ªA BMB2015i‘æ38‰ñ “ú–{•ªŽq¶•¨Šw‰ï”N‰ï ‘æ88‰ñ“ú–{¶‰»Šw‰ï‘å‰ï ‡“¯‘å‰ïj‚É‚ÄA ŽáŽè—DG”­•\Ü‚ðŽóÜ‚µ‚Ü‚µ‚½B

2015”N9ŒŽ24“ú
–È‘º’¼l‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªA J Neurosci Res.Ž ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Colocalization of phosphorylated forms of WAVE1, CRMP2, and tau in Alzheimer's disease model mice: Involvement of Cdk5 phosphorylation and the effect of ATRA treatment.
›Watamura N, Toba J, Yoshii A, Nikkuni M, Ohshima T.

2015”N09ŒŽ11“ú
’·ˆä~‚³‚ñ‚ªA‘æ58‰ñ“ú–{_Œo‰»Šw‰ï‘å‰ï ‚Å_Œo‰»ŠwŒû‰‰—DG”­•\Ü‚ðŽóÜ‚µ‚Ü‚µ‚½B

2015”N9ŒŽ
‘ÛƒR[ƒXB4 2–¼‚ÌŠw¶‚ª‘哇Œ¤‚̃ƒ“ƒo[‚ɉÁ‚í‚肵‚Ü‚µ‚½B

2015”N8ŒŽ30“ú-9ŒŽ1“ú
Š›ìƒZƒ~ƒi[ƒnƒEƒX‚ÅA‡“¯ƒ[ƒ~‡h‚ðs‚¢‚Ü‚µ‚½B

2015”N07ŒŽ21“ú
‹à‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ªA Neural plasticityŽ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Phosphorylation of CRMP2 by Cdk5 regulates dendritic spine development of cortical neuron in the mouse hippocampus
›Jin X, Sasamoto K, Nagai J, Yamazaki Y, Saito K, Goshima Y, Inoue T, Ohshima T

2015”N6ŒŽ18“ú
´…—E‹C‚³‚ñ‚ÌŒ¤‹†˜_•¶‚ª genesisŽ ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Radial glial cell-specific ablation in the adult zebrafish brain
genesis 53:431-439, 2015.
›Shimizu Y, Ito Y, Tanaka H, Ohshima T

2015”N4ŒŽ
B4 6–¼‚ÌŠw¶‚ª‘哇Œ¤‚̃ƒ“ƒo[‚ɉÁ‚í‚肵‚Ü‚µ‚½B

2015”N2ŒŽ5“ú
‰¡•lŽs—§‘åŠwˆãŠw•”ŒÜ“ˆŒ¤‹†Žº‚Æs‚Á‚½‹¤“¯Œ¤‹†‚̬‰Ê‚ªA Sientific ReportsŽ‚ÉŒfÚ‚³‚êA‘åŠw‚æ‚è ƒvƒŒƒXƒŠƒŠ[ƒX‚µ‚Ü‚µ‚½B

2014”N11ŒŽ21“ú
—‰»ŠwŒ¤‹†Š”]‰ÈŠw‘‡Œ¤‹†ƒZƒ“ƒ^[s“®ˆâ“`Šw‹ZpŠJ”­ƒ`[ƒ€‚Æs‚Á‚½‹¤“¯Œ¤‹†‚̬‰Ê‚ª Cerebral CortexŽ ‚¨‚æ‚ÑMolecular BrainŽ ‚ÉŒfÚ‚³‚êA–{‘åŠw‚æ‚èAƒvƒŒƒXƒŠƒŠ[ƒX‚µ‚Ü‚µ‚½B

2014”N11ŒŽ20“ú
”ŽŽmŒã‹L‰Û’ö‘²‹Æ¶‚Ì“V‰H—´”V‰î‚³‚ñ‚ª—‰»ŠwŒ¤‹†Š”]‰ÈŠw‘‡Œ¤‹†ƒZƒ“ƒ^[‰ª–{mŒ¤‹†Žºi”­¶ˆâ“`Žq§ŒäŒ¤‹†ƒ`[ƒ€j‚Ås‚Á‚½A ”ŽŽm‰Û’ö‚̬‰Ê‚àŠÜ‚ß‚½Œ¤‹†¬‰Ê‚ªNeuronŽ ‚ÉŒfÚ‚³‚êA—‰»ŠwŒ¤‹†Š‚æ‚èƒvƒŒƒXƒŠƒŠ[ƒX‚³‚ê‚Ü‚µ‚½B

2014”N11ŒŽ
ƒ[ƒuƒ‰ƒtƒBƒbƒVƒ…‚Ìadult neurogenesis‚ÉŠÖ‚·‚錤‹†¬‰Ê‚ªADev DynŽ‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B
Valproic acid, a histone deacetylase inhibitor,regulates cell proliferation in the adult zebrafish optic tectum.
Dev Dyn 243(11):1401-15, 2014
Dozawa M, Kono H, Ito Y, Tanaka H, Ohshima T.

2014”N10ŒŽ
ƒvƒ‹ƒLƒ“ƒG×–E“ÁˆÙ“Ip35ƒRƒ“ƒfƒBƒVƒ‡ƒiƒ‹KOƒ}ƒEƒX‚ÌŒ¤‹†‚ªAJ. Neurchem.Ž‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B ‚Ü‚½ŒfÚ†‚Ì•\Ž†‚ðü‚èAEditorial Highlight ‚ÉŽæ‚èã‚°‚ç‚ê‚Ü‚µ‚½B
Cdk5/p35 is required for motor coordination and cerebellar plasticity.
JNC 2014 Oct;131(1):53-64.
He X, Wada S, Ishizeki M, Araki Y, Mita N, Ogura H, Abe M, Yamazaki M, Sakimura K, Mikoshiba K, Inoue T, Ohshima T.

2014”N9ŒŽ19“ú-21“ú
Š›ìƒZƒ~ƒi[ƒnƒEƒX‚ÅAˆä㌤‚Ƈ“¯ƒ[ƒ~‡h‚ðs‚¢‚Ü‚µ‚½B

2014”N9ŒŽ
‚S–¼‚Ì‘ÛƒR[ƒX‚ÌŠw¶iB4 ‚P–¼AM1 ‚R–¼j‚ª‘哇Œ¤‚̃ƒ“ƒo[‚ɉÁ‚í‚肵‚Ü‚µ‚½B

2014”N8ŒŽ
ˆä㌤‚Æ‚Ì‹¤“¯Œ¤‹†‚ªAJ. Neurchem.Ž‚ÉŒfÚ‚³‚ê‚Ü‚µ‚½B‚Ü‚½ŒfÚ†‚Ì•\Ž†‚ðü‚è‚Ü‚µ‚½B
Impairments of LTD induction and motor coordination precede Ab accumulation in the cerebellum of APPswe/PS1dE9 double transgenic mice.
J Neurochem 130(3):432-43
Kuwabara Y, Ishizeki M, Watamura N, Toba J, Yoshii A, Inoue T, Ohshima T. 2014.