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Fujio Okamoto

Showing results (11-20 of 22) with videos related to

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Endocrinology|February 24, 2007
Three Na+/Ca2+ exchanger (NCX) variants are expressed in mouse osteoclasts and mediate calcium transport during bone resorptionJing-Ping Li, Hiroshi Kajiya, Fujio Okamoto, et al.
Cell Calcium|October 29, 2010
RANKL-induced TRPV2 expression regulates osteoclastogenesis via calcium oscillationsHiroshi Kajiya, Fujio Okamoto, Tetsuomi Nemoto, et al.
Lipids in Health and Disease|June 4, 2018
Toll-like receptor 2 activation primes and upregulates osteoclastogenesis via lox-1Kimiko Ohgi, Hiroshi Kajiya, Kazuko Goto-T, et al.
Naunyn-Schmiedeberg'S Archives of Pharmacology|April 9, 2013
A novel inhibitory mechanism of nitrogen-containing bisphosphonate on the activity of Cl- extrusion in osteoclastsKimiko Ohgi, Hiroshi Kajiya, Fujio Okamoto, et al.
Biology of Reproduction|February 27, 2003
Amino acid-permeable anion channels in early mouse embryos and their possible effects on cleavageMomoyo Sonoda, Fujio Okamoto, Hiroshi Kajiya, et al.
Molecular and Cellular Biology|August 20, 2008
The association of Notch2 and NF-kappaB accelerates RANKL-induced osteoclastogenesisHidefumi Fukushima, Akihiro Nakao, Fujio Okamoto, et al.
American Journal of Physiology. Cell Physiology|February 1, 2008
Intracellular ClC-3 chloride channels promote bone resorption in vitro through organelle acidification in mouse osteoclastsFujio Okamoto, Hiroshi Kajiya, Kazuko Toh, et al.
European Journal of Oral Sciences|February 16, 2023
Conditional knockout of transient receptor potential melastatin 7 in the enamel epithelium: Effects on enamel formationMasashi Shin, Aya Matsushima, Hiroshi Kajiya, et al.
Scientific Reports|December 24, 2017
The crucial role of the TRPM7 kinase domain in the early stage of amelogenesisKayoko Ogata, Tomoyuki Tsumuraya, Kyoko Oka, et al.
Bone|October 9, 2022
Mesenchymal cell TRPM7 expression is required for bone formation via the regulation of chondrogenesisMasashi Shin, Shihomi Mori, Toshihide Mizoguchi, et al.
Pageof 3

Showing results (11-20 of 22) with videos related to

Sort By:
Pageof 3
Endocrinology|February 24, 2007
Three Na+/Ca2+ exchanger (NCX) variants are expressed in mouse osteoclasts and mediate calcium transport during bone resorptionJing-Ping Li, Hiroshi Kajiya, Fujio Okamoto, et al.
Cell Calcium|October 29, 2010
RANKL-induced TRPV2 expression regulates osteoclastogenesis via calcium oscillationsHiroshi Kajiya, Fujio Okamoto, Tetsuomi Nemoto, et al.
Lipids in Health and Disease|June 4, 2018
Toll-like receptor 2 activation primes and upregulates osteoclastogenesis via lox-1Kimiko Ohgi, Hiroshi Kajiya, Kazuko Goto-T, et al.
Naunyn-Schmiedeberg'S Archives of Pharmacology|April 9, 2013
A novel inhibitory mechanism of nitrogen-containing bisphosphonate on the activity of Cl- extrusion in osteoclastsKimiko Ohgi, Hiroshi Kajiya, Fujio Okamoto, et al.
Biology of Reproduction|February 27, 2003
Amino acid-permeable anion channels in early mouse embryos and their possible effects on cleavageMomoyo Sonoda, Fujio Okamoto, Hiroshi Kajiya, et al.
Molecular and Cellular Biology|August 20, 2008
The association of Notch2 and NF-kappaB accelerates RANKL-induced osteoclastogenesisHidefumi Fukushima, Akihiro Nakao, Fujio Okamoto, et al.
American Journal of Physiology. Cell Physiology|February 1, 2008
Intracellular ClC-3 chloride channels promote bone resorption in vitro through organelle acidification in mouse osteoclastsFujio Okamoto, Hiroshi Kajiya, Kazuko Toh, et al.
European Journal of Oral Sciences|February 16, 2023
Conditional knockout of transient receptor potential melastatin 7 in the enamel epithelium: Effects on enamel formationMasashi Shin, Aya Matsushima, Hiroshi Kajiya, et al.
Scientific Reports|December 24, 2017
The crucial role of the TRPM7 kinase domain in the early stage of amelogenesisKayoko Ogata, Tomoyuki Tsumuraya, Kyoko Oka, et al.
Bone|October 9, 2022
Mesenchymal cell TRPM7 expression is required for bone formation via the regulation of chondrogenesisMasashi Shin, Shihomi Mori, Toshihide Mizoguchi, et al.
Pageof 3