K
Kimimitsu Oda
Researcher at Niigata University
Publications - 111
Citations - 3045
Kimimitsu Oda is an academic researcher from Niigata University. The author has contributed to research in topics: Hypophosphatasia & Bone remodeling. The author has an hindex of 31, co-authored 111 publications receiving 2787 citations.
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Journal ArticleDOI
Identification of cell cycle-arrested quiescent osteoclast precursors in vivo.
Toshihide Mizoguchi,Akinori Muto,Akinori Muto,Nobuyuki Udagawa,Atsushi Arai,Teruhito Yamashita,Akihiro Hosoya,Tadashi Ninomiya,Hiroaki Nakamura,Yohei Yamamoto,Saya Kinugawa,Midori Nakamura,Yuko Nakamichi,Yasuhiro Kobayashi,Sakae Nagasawa,Kimimitsu Oda,Hirofumi Tanaka,Mitsuo Tagaya,Josef M. Penninger,Michio Ito,Naoyuki Takahashi +20 more
TL;DR: Osteoclasts preexist at the site of osteoclastogenesis and that osteoblasts are important for maintenance of QuOPs are suggested.
Journal ArticleDOI
A general method for rapid purification of soluble versions of glycosylphosphatidylinositol-anchored proteins expressed in insect cells: an application for human tissue-nonspecific alkaline phosphatase.
Kimimitsu Oda,Yoshihiro Amaya,Mariko Fukushi-Irie,Yasuko Kinameri,Kazuhiro Ohsuye,Ichiro Kubota,Shinichi Fujimura,Jun Kobayashi +7 more
TL;DR: Immunoblotting analysis showed a single 80-kDa band in the cell homogenate prepared from Saos-2 (human osteosarcoma) cells, indicating that the size difference between the two enzymes is ascribed to N-linked oligosaccharides.
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Immunolocalization of tissue non-specific alkaline phosphatase in mice.
TL;DR: Immunolocalization of tissue non-specific alkaline phosphatase (TNAP) was examined in murine tissues, employing a specific antiserum to TNAP to localize the TNAP isozyme, thus distinguishing it from other isozymes.
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A histological evaluation for guided bone regeneration induced by a collagenous membrane
Yuya Taguchi,Norio Amizuka,Masayoshi Nakadate,Hideo Ohnishi,Noritaka Fujii,Kimimitsu Oda,Shuichi Nomura,Takeyasu Maeda +7 more
TL;DR: The collagen fibers of a GBR-membrane appear to participate in osteogenic differentiation, and the membrane-associated and the cavity-derived bones had completely integrated, showing the same height of the periosteal ridge as the surrounding alveolar bones.
Journal ArticleDOI
Zinc transport complexes contribute to the homeostatic maintenance of secretory pathway function in vertebrate cells.
Kaori Ishihara,Tomohiro Yamazaki,Yoko Ishida,Tomoyuki Suzuki,Kimimitsu Oda,Masaya Nagao,Yuko Yamaguchi-Iwai,Taiho Kambe +7 more
TL;DR: The results suggest that zinc transport into thesecretory pathway is strictly regulated for the homeostatic maintenance of secretory pathway function in vertebrate cells.