School personnel information

写真b

KAJIMURA Naoko


Keyword

structural biology,

Organization 【 display / non-display

  • 2005.06.01 - 2011.05.31, Research Center for Ultra-High Voltage Electron Microscopy, Specially Appointed Researcher

  • 2014.05.01 - 2016.03.31, Department of Frontier Biosciences, Graduate School of Frontier Biosciences, Specially Appointed Researcher

  • 2016.04.01 - 2016.08.31, Graduate School of Frontier Biosciences, Specially Appointed Researcher

  • 2016.09.01 - , Research Center for Ultra-High Voltage Electron Microscopy, Specially Appointed Researcher

Employment Record 【 display / non-display

Biomolecular Engineering Research Institure, Researcher 1996.04 - 2000.04
Biomolecular Engineering Research Institure, Researcher 2000.05 - 2005.05
 

Academic Papers 【 display / non-display

  • Sequence- and seed-structure-dependent polymorphic fibrils of alpha-synuclein, Goki Tanaka, Tomoyuki Yamanaka, Yoshiaki Furukawa, Naoko Kajimura, Kaoru Mitsuoka, Nobuyuki Nukina, Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease,1865(6) 1410-1420, 2019.06, Papers

  • Biochemical and morphological classification of disease-associated alpha-synuclein mutants aggregates, Goki Tanaka, Tomoyuki Yamanaka, Yoshiaki Furukawa, Naoko Kajimura, Kaoru Mitsuoka, Nobuyuki Nukina, Biochemical and Biophysical Research Communications,508(3) 729-734, 2019.01, Papers

  • Lrit1, a Retinal Transmembrane Protein, Regulates Selective Synapse Formation in Cone Photoreceptor Cells and Visual Acuity., Ueno A, Omori Y, Sugita Y, Watanabe S, Chaya T, Kozuka T, Kon T, Yoshida S, Matsushita K, Kuwahara R, Kajimura N, Okada Y, Furukawa T., Cell Reports,22(13):3548-3561, 2018.03, Papers

  • Lrit1, a Retinal Transmembrane Protein, Regulates Selective Synapse Formation in Cone Photoreceptor Cells and Visual Acuity., Akiko Ueno, Yoshihiro Omori, Yuko Sugita, Satoshi Watanabe, Taro Chaya, Takashi Kozuka, Tetsuo Kon, Satoyo Yoshida, Kenji Matsushita, Ryusuke Kuwahara, Naoko Kajimura, Yasushi Okada, Takahisa Furukawa, Cell reports,22(13) 3548-3561, 2018.03, http://orcid.org/0000-0002-8129-6223, Papers

  • Loss of ift122, a Retrograde Intraflagellar Transport (IFT) Complex Component, Leads to Slow, Progressive Photoreceptor Degeneration Due to Inefficient Opsin Transport., Boubakri M, Chaya T, Hirata H, Kajimura N, Kuwahara R, Ueno A, Malicki J, Furukawa T, Omori Y, The Journal of biological chemistry,291(47) 24465-24474, 2016.11, Papers

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