Tanaka Tomoko
Toyota
8 Papers
17 Citations
Tanaka Tomoko is an academic researcher from Toyota. The author has contributed to research in topics: Gene & Arabidopsis. The author has an hindex of 4, co-authored 8 publications.
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Papers
Transgenic sweet potato expressing thionin from barley gives resistance to black rot disease caused by Ceratocystis fimbriata in leaves and storage roots.
Nobuhiko Muramoto,Nobuhiko Muramoto,Tanaka Tomoko,Takashi Shimamura,Norihiro Mitsukawa,Etsuko Hori,Katsunori Koda,Motoyasu Otani,Masana Hirai,Kenzo Nakamura,Kenzo Nakamura,Takao Imaeda +11 more
TL;DR: The usefulness of transgenic sweet potato expressing antimicrobial peptide to reduce damages of sweet potato from the black rot disease and to reduce the use of agricultural chemicals is highlighted.
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Plastid‐targeted forms of restriction endonucleases enhance the plastid genome rearrangement rate and trigger the reorganization of its genomic architecture
Hiroki Sugimoto,Minoru Hirano,Hidenori Tanaka,Tanaka Tomoko,Ritsuko Kitagawa‐Yogo,Nobuhiko Muramoto,Norihiro Mitsukawa +6 more
TL;DR: Results indicate that DSB frequencies and their distribution are major determinants shaping ptDNAs, and that plants seem to be intolerant of any structural or organizational changes in the ptDNA.
7
Patent
Gene for increasing the production of plant biomass and/or seeds and method for use thereof
Satoshi Kondo,Chikara Ohto,Norihiro Mitsukawa,Nobuhiko Muramoto,Kenichi Ogawa,Hiroki Sugimoto,Tanaka Tomoko,Madoka Yonekura +7 more
- 13 Mar 2009
TL;DR: In this article, a protein phosphatase 2C gene having three consensus sequences comprising the amino acid sequences shown in SEQ ID NOS: 1-3 from the N-terminal side in such order is over-expressed.
5
Patent
Gene for increasing plant weight and method for using the same
Satoshi Kondo,Chikara Ohto,Masaru Takagi,Kyoko Matsui,Tomotsugu Koyama,Nobutaka Mitsuda,Nobuhiko Muramoto,Norihiro Mitsukawa,Tanaka Tomoko +8 more
- 04 Jun 2010
TL;DR: In this article, a gene having novel functions is searched for, by which plant weight (that is, biomass level) can be increased and by which substance productivity can be decreased by increasing or decreasing a chimeric protein, in which a transcriptional factor comprising the amino acid sequence shown in SEQ ID NO: 2, 4, or 6 is fused to a functional peptide that converts an arbitrary transcriptional factors into an transcriptional repression factor.
4
Patent
Plant suitable for increasing production of phloem tissue and use of same
Tanaka Tomoko,Hiroki Sugimoto,Yogo Ritsuko,Nobuhiko Muramoto,Norihiro Mitsukawa,Kazufumi Tabata +5 more
- 09 Sep 2014
TL;DR: In this article, a plant is cultivated by introducing, into plant cells, a promoter specifically expressed in the vascular cambium or phloem cells of a plant, and a cell growth-promoting gene encoding a protein that promotes cell growth under the control of the promoter.
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