Tokyo University of Agriculture and Technology   連合農学研究科   Associate Professor

2009.10 - Present

Utsunomiya University   雑草科学研究センター   Associate Professor

2008.11 - 2014.3

Teikyo University   理工学部   Assistant Professor

2007.4 - 2008.10

理化学研究所   研究員

2003.4 - 2007.3

Teikyo University   理工学部   Special researcher of the Japan Society for the Promotion of Science

2000.4 - 2003.3

Tokyo University of Agriculture and Technology   大学院連合農学研究科   Special researcher of the Japan Society for the Promotion of Science

1998.4 - 2000.3

内閣府食品安全委員会   専門委員  

2020.4 - Present   

植物化学調節学会   編集委員  

2013.10 - 2024.11   

DIENELACTONE HYDROLASE LIKE PROTEIN1 negatively regulates the KAI2-ligand pathway in Marchantia polymorpha. Reviewed

Kameoka H., Shimazaki S., Mashiguchi K., Watanabe B., Komatsu A., Yoda A., Mizuno Y., Kodama K., Okamoto M., Nomura T., Yamaguchi S., Kyozuka J.

Current Biology   33   3505 - 3513   2023.8

Heterologous expression of the lectin CmRlec from Cordyceps militaris (Cordycipitaceae, Ascomycota) in Escherichia coli. Reviewed

Ono A., Zhang J., Tanaka Y., Sato C., Yoda A., Ogata M., Nomura T., Suzuki T.

Biosci Biotechnol Biochem.   87 ( 7 )   742 - 746   2023.7

Synthesis of carlactone derivatives to develop a novel inhibitor of strigolactone biosynthesis. Reviewed

Kawada K., Saito T., Onoda S., Inayama T., Takahashi I., Seto Y., Nomura T., Sasaki Y., Asami T., Yajima S., Ito S.

ACS Omega   8 ( 5 )   13855 - 13862   2023.4

Canonical strigolactones are not the major determinant of tillering but important rhizospheric signals in rice. Reviewed International coauthorship

Ito S., Braguy J., Wang JY., Yoda A., Fiorilli V., Takahashi I., Jamil M., Felemban A., Miyazaki S., Mazzarella T., Chen G.E., Shinozawa A., et al.

Science Advances   8 ( 44 )   eadd1278   2022.11

Production and stably maintenance of strigolactone by transient expression of biosynthetic enzymes in Nicotiana benthamiana. Reviewed

Yata A., Nosaki S., Yoda A., Nomura T., Miura K.

Frontiers in Plant Science   13   1027004   2022.10

Supra-organismal regulation of strigolactone exudation and plant development in response to rhizospheric cues in rice Reviewed International coauthorship

Yoneyama K., Xie X., Nomura T., Yoneyama K., Bennett T.

Current Biology   32 ( 16 )   3601 - 3608   2022.8

An ancestral function of strigolactones as symbiotic rhizosphere signals Reviewed International coauthorship

Kodama K., Rich M.K., Yoda A., Shimazaki S., Xie X., Akiyama K., Mizuno Y., Komatsu A., Luo Y., Suzuki H., Kameoka H., Libourel C., Keller J., et al.

Nature Communications   13 ( 1 )   3974   2022.7

Origins and evolution of the dual functions of strigolactones as rhizosphere signaling molecules and plant hormones Reviewed

Kyozuka J., Nomura T., Shimamura M.

Current Opinion in Plant Biology   65   102154   2022.2

ストリゴラクトンの二面的機能, その起源と進化 Invited

経塚淳子, 野村崇人

植物の生長調節   56 ( 2 )   63 - 70   2021.12

Strigolactone biosynthesis catalyzed by cytochrome P450 and sulfotransferase in sorghum Reviewed International coauthorship

Yoda A., Mori N., Akiyama K., Kikuchi M., Xie X., Miura K., Yoneyama K., Sato-Izawa K., Yamaguchi S., Yoneyama Y., Nelson D.C., Nomura T.

New Phytologist   232   1999 - 2010   2021.12

Triflumizole as a Novel Lead Compound for Strigolactone Biosynthesis Inhibitor Reviewed

Kawada K., Uchida Y., Takahashi I., Nomura T., Sasaki Y., Asami T., Yajima S., Ito S.

Molecules   25   E5525   2020.11

Chemical identification of 18-hydroxycarlactonoic acid as an LjMAX1 product and in planta conversion of its methyl ester to canonical and noncanonical strigolactones in Lotus japonicus Reviewed

Mori N., Sado A., Xie X., Yoneyama K., Asami K., Seto Y., Nomura T., Yamaguchi S., Yoneyama K., Akiyama K.

Phytochemistry   174   112349   2020.6

Hydroxyl carlactone derivatives are predominant strigolactones in Arabidopsis Reviewed International coauthorship

Yoneyama K., Akiyama K., Brewer P.B., Mori N., Kawano-Kawada M., Haruta S., Nishiwaki H., Yamauchi S., Xie X., Umehara M., Beveridge C.A. Nomura T.

Plant Direct   e00219   2020.5

Do phosphate and cytokinin interact to regulate strigolactone biosynthesis or act independently? Reviewed

Yoneyama K., Xie X., Nomura T, Yoneyama K.

Frontiers in Plant Science   11   438   2020.5

Identification of two oxygenase genes involved in the respective biosynthetic pathways of canonical and non?canonical strigolactones in Lotus japonicus Reviewed

Mori N., Nomura T., Akiyama K.

Planta   251   40   2020.1

Regulation of biosynthesis, perception, and functions of strigolactones for promoting arbuscular mycorrhizal symbiosis and managing root parasitic weeds Reviewed

Yoneyama K., Xie X., Yoneyama K., Nomura T., Takahashi I., Asami T., Mori N., Akiyama K., Kusajima M., Nakashita H.

Pest Manag Sci.   75   2353 - 2359   2019.9

Genome sequence of Striga asiatica provides insight into the evolution of plant parasitism Reviewed International coauthorship

Yoshida S., Kim S., Wafula E.K., Tanskanen J., Kim Y., Honaas L., Yang Z., Spallek T., Conn11 C.E., Ichihashi Y., Cheong K., Cui1 S., Der J.P., et al.

Current Biology   29   3041 - 3052   2019.9

Lotuslactone, a non-canonical strigolactone from Lotus japonicus Reviewed

Xie X., Mori N., Yoneyama K., Nomura T., Uchida K., Yoneyama K., Akiyama K.

Phytochemistry   157   200 - 205   2019.1

Overexpression of the vascular brassinosteroid receptor BRL3 confers drought resistance without penalizing plant growth. Reviewed International coauthorship

Fàbregas N., Lozano-Elena F., Blasco-Escámez D., Tohge T., Martínez-Andújar C., Albacete A., Osorio S., Bustamante M., Riechmann J.L., et al.

Nature Communications   9   4680   2018.11

Conversion of carlactone to carlactonoic acid is a conserved function of MAX1 homologs in strigolactone biosynthesis Reviewed

Yoneyama K., Mori N., Stao T., Yoda A., Xie X., Okamoto M., Iwanaga M., Ohnishi T., Nishiwaki H., Asami T., Yokota T., Akiyama K., et al.

New Phytologist   218   1522 - 1533   2018.6

Which are the major players, canonical or non-canonical strigolactones? Reviewed International coauthorship

Yoneyama K., Xie X., Yoneyama K., Kisugi T., Nomura T., Nakatani Y., Akiyama K., McErlean C.S.P.

J. Exp. Bot.   69 ( 9 )   2231 - 2239   2018.4

RNA-Seq using bulked recombinant inbred line populations uncovers the importance of brassinosteroid for seed longevity after priming treatments Reviewed

Sano N., Kim J.-S., Onda Y., Nomura T., Mochida K., Okamoto M., Seo M.

Scientific Reports   ( 7 )   8095   2017.8

Methyl zealactonoate, a novel germination stimulant for root 1 parasitic weeds produced by maize Reviewed International coauthorship

Xie X., Kisugi T., Yoneyama K., Nomura T., Akiyama K., Uchida K., Yokota T., McErlean C.S.P., Yoneyama K.

J. Pestic. Sci.   ( 42 )   58 - 61   2017.5

Occurrence of brassinosteroids in non-flowering land plants, liverwort, moss, lycophyte and fern Reviewed

Yokota T., Ohnishi T., Shibata K., Asahina M., Nomura T., Fujita T., Ishizaki K., Kohchi T.

Phytochemistry   ( 136 )   46 - 55   2017.4

Structure- and stereo-specific transport of strigolactones from roots to shoots Reviewed

Xie X., Yoneyama K., Kisugi T., Nomura T., Akiyama K., Asami T., Yoneyama K.

J. Pestic. Sci.   41   55 - 58   2016.5

LATERAL BRANCHING OXIDOREDUCTASE acts in the final stages of strigolactone biosynthesis in Arabidopsis Reviewed International coauthorship

Brewer P.B., Yoneyama K., Filardo F., Meyers E., Scaffidi A., Frickey T., Akiyama K., Seto Y., Dun E.A., Cremer J.E., Kerr S.C., Waters M.T., et al.

Proc. Natl. Acad. Sci. USA   113 ( 20 )   6301 - 6306   2016.5

Strigolactones are transported from roots to shoots, although not through the xylem. Reviewed

Xie X., Yoneyama K., Kisugi T., Nomura T., Akiyama K., Asami T., Yoneyama K.

J. Pestic. Sci.   40   214 - 216   2015.11

Difference in Striga-susceptibility is reflected in strigolactone secretion profile, but not in compatibility and host preference in arbuscular mycorrhizal symbiosis in two maize cultivars. Reviewed

Yoneyama K., Arakawa R., Ishimoto K., Kim H.I., Kisugi T., Xie X., Nomura T., Kanampiu F., Yokota T., Ezawa T., Yoneyama K.

New Phytologist   206   983 - 989   2015.5

Shoot-derived signals other than auxin are involved in systemic regulation of strigolactone production in roots Reviewed

Yoneyama K., Kisugi T., Xie X., Arakawa R., Ezawa T., Nomura T., Yoneyama K.

Planta   241   687 - 698   2015.3

Carlactone is converted to carlactonoic acid by MAX1 in Arabidopsis and its methyl ester can directly interact with AtD14 in vitro Reviewed

Abe S., Sado A., Tanaka K., Kisugi T., Asami K., Ota S., Kim H.I., Yoneyama K., Xie X., Ohnishi T., Seto Y., Yamaguchi S., Akiyama K., et al.

Proc. Natl. Acad. Sci. USA   111 ( 50 )   18084 - 18089   2014.12

Blue light-promoted rice leaf bending and unrolling are due to up-regulated brassinosteroid biosynthesis genes accompanied by accumulation of castasterone Reviewed

Asahina M., Tamaki Y, Sakamoto T., Shibata K., Nomura T., Yokota T.

Phytochemistry   104   21 - 29   2014.8

7α- and 7β-Hydroxyorobanchyl acetate as germination stimulants for root parasitic weeds produced by cucumber Reviewed

Khetkam P., Xie X., Kisugi T., Kim H.I., Yoneyama K., Kisugi T., Uchida K., Yokota T., Nomura T., Yoneyama K.

J. Pestic. Sci.   39   121 - 126   2014.8

Avenaol, a germination stimulant for root parasitic plants from Avena strigosa Reviewed International coauthorship

Kim H.I., Kisugi T., Khetkam P., Xie X., Yoneyama K., Uchida K., Yokota T., Nomura T., McErlean C.S.P., Yoneyama K.

Phytochemistry   103   85 - 88   2014.7

Functional analysis of Arabidopsis CYP714A1 and CYP714A2 reveals that they are distinct gibberellin modification enzymes Reviewed International coauthorship

Nomura T., Magome H., Hanada A., Takeda-Kamiya N., Mander L.N., Kamiya Y., Yamaguchi S.

Plant Cell Physiol.   54   1837 - 1851   2013.10

Nitrogen and phosphorus fertilization negatively affects strigolactone production and exudation in sorghum Reviewed

Yoneyama K., Xie X., Kisugi T., Nomura T., Yoneyama K.

Planta   238   885 - 894   2013.8

Strigone, isolation and identification as a natural strigolactone from Houttuynia cordata Reviewed

Kisugi T., Xie X., Kim H.I., Yoneyama K., Sado A., Akiyama K., Hayashi H., Uchida K., Yokota T., Nomura T., Yoneyama K.

Phytochemistry   87   60 - 64   2013.3

Confirming Stereochemical Structures of Strigolactones Produced by Rice and Tobacco Reviewed

Xie X., Yoneyama K., Kisugi T., Uchida K., Ito S., Akiyama K., Hayashi H., Yokota T., Nomura T., Yoneyama K.

Mol. Plant   6   153 - 163   2013.1

CYP714B1 and CYP714B2 encode gibberellin 13-oxidases that reduce gibberellin activity in rice Reviewed

Magome H., Nomura T., Hanada A., Takeda-Kamiya N., Ohnishi T., Shinma Y., Katsumata T., Kawaide H., Kamiya Y., Yamaguchi S.

Proc. Natl. Acad. Sci. USA   110   1947 - 1952   2013.1