Research theme for competitive and other funds (28):
2021 - 2024 転移因子の活性を制御するエピゲノムリプログラミング機構の解明
2018 - 2021 Elucidation of a host defense mechanism acquired by the evolutionary arms race between genome and transposable elements
2014 - 2018 Identification of genes controlling transposition activity of the rice active transposon mPing
2009 - 2012 Elucidation of transposition mechanism a rice MITE Elucidation of a rice MITE mPing for development of high-efficiency transposon tagging system
2006 - 2007 Origin and activation mechanism of an active transposition of mPingin rice
2005 - 2007 Analysis of a novel protein conjugation system relating to ubiquitin-like protein RURM1 of rice
2003 - 2005 Genetic factors responsible for the mobility of mPing in the rice genome
2003 - 2004 イネの地下部冷温処理に対する耐冷性の遺伝的および生理的機構
2002 - 2004 Analysis of transposition mechanisms of the active transposon firstly identified in rice
2002 - 2003 Comprehensive studies on endogenous PR-3 chitinases expression in rive plant
1999 - 2000 Molecular and functional analyses of the induced mutable gene slg in rice.
1998 - 2000 Exploitation of latent cool-injury resistance genes among rice cultivars grown in warm region.
1994 - 1995 The construction of a fine molecular map for the activator locus of the mutator in rice.
1993 - 1995 Exploitation of a new method of genetic analysis for quantitative characters in rice using RAPD
1993 - 1994 Restructing rice genetics
1992 - 1993 For the use of RFLP analysis in the genetic study on QTL(Quantitative Traits Loci) in rice.
1991 - 1993 Analysis of gene expression and improvement by genetic engineerng for the functions of roots in higher plants
1990 - 1992 Molecular genetics of a mutator in rice
1988 - 1990 Exploitation of a New Breeding System by the Use of Mutator in Rice
1988 - 1990 Studies on the Exploitation of New Functions of Rice by Biotechnology
1987 - 1989 Cytogenetical analysis for the action of a mutator in rice
1980 - イネの稈長に関する遺伝機構の解析
1980 - Genetic Analysis of Culm Length in Rice
1975 - イネの出穂開花期を支配する遺伝機構の解析
1975 - イネトランスポゾンに関する分子生物学的研究
1975 - Genetic Analysis of Heading-time in Rice
1975 - Molecular Biological Studies on Rice Transposon
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Papers (251):
Toshiyuki Takeo, Takatoshi Tanisaka. Breakthrough improvement of tropical rice cultivation using the soil microbial flora activator Takeo-Tanisaka Solution. J. Crop Res. 2023. 68. 41-50
Toshiyuki Takeo, Chong Xu, Takatoshi Tanisaka. Prevention of vegetable rhizoctonia disease with the aid of a soil microbial flora activating agent. J. Crop Res. 2022. 67. 27-34
Toshiyuki Takeo, Yuanrong Li, Chong Xu, Takatoshi Tanisaka. Effects of a soil microbial fl ora activating agent on the growth of leaf vegetables. J. Crop Res. 2022. 67. 17-25
TOMITA Motonori. The gametic non-lethal gene Gal on chromosome 5 is indispensable for the transmission of co-induced semidwarfing gene d60 in rice. Biology. 2019. 8. 4. 94-116
谷坂隆俊. イネ活性型転移因子mPingの活性を制御する遺伝子の単離 Identification of genes controlling transposition activity of the rice active transposon mPing. 科学研究費補助金一般C報告書. 2017