M
Minoru Ueda
Researcher at Tohoku University
Publications - 476
Citations - 9929
Minoru Ueda is an academic researcher from Tohoku University. The author has contributed to research in topics: Nyctinasty & Osseointegration. The author has an hindex of 51, co-authored 462 publications receiving 8796 citations. Previous affiliations of Minoru Ueda include Okayama University & Keio University.
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Chromatin changes in response to drought, salinity, heat, and cold stresses in plants.
TL;DR: Recent progress on the regulation and alteration of histone modification in response to the abiotic stresses, drought, high-salinity, heat, and cold in plants is summarized.
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Autogenous injectable bone for regeneration with mesenchymal stem cells and platelet-rich plasma: tissue-engineered bone regeneration.
TL;DR: Results demonstrate that the dMSCs/PRP mixture is useful as a osteogenic bone substitute and to provide a clinical alternative to autogenous bone grafts.
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Tissue-engineered composites of anulus fibrosus and nucleus pulposus for intervertebral disc replacement.
TL;DR: The results demonstrate the feasibility of creating a composite intervertebral disc with both anulusfibrosus and nucleus pulposus for clinical applications.
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Bone regeneration following injection of mesenchymal stem cells and fibrin glue with a biodegradable scaffold.
Yoichi Yamada,Jae Seong Boo,Ryotaro Ozawa,Tetsuro Nagasaka,Yasuhiro Okazaki,Ken-ichiro Hata,Minoru Ueda +6 more
TL;DR: Mesenchymal stem cells/beta-TCP fibrin glue admixtures can result in successful bone formation and holds the promise of a minimally invasive means of generating autogenous bone to correct or reconstruct bony defects.
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AtSWEET13 and AtSWEET14 regulate gibberellin-mediated physiological processes
Yuri Kanno,Takaya Oikawa,Yasutaka Chiba,Yasuhiro Ishimaru,Takafumi Shimizu,Naoto Sano,Tomokazu Koshiba,Yuji Kamiya,Minoru Ueda,Mitsunori Seo +9 more
TL;DR: Evidence is provided that Arabidopsis SWEET proteins, AtSWEET13 and AtS WEET14, which are members of a family that had previously been linked to sugar transport, are able to mediate cellular GA uptake when expressed in yeast and oocytes, and suggest that At sWEET 13 and AtsWEET14 may be involved in modulating GA response in Arabidoptera.