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件数:196件
[2018]
1.[] Reduction in sucrose contents by downregulation of fructose-1,6-bisphosphatase 2 causes tiller outgrowth cessation in rice mutants lacking glutamine synthetase1;2.[RICE,11,(2018),65-]Ohashi, M., Ishiyama, K., Kusano, M., Fukushima, A., Kojima, S., Hayakawa, T. and Yamaya, T.
10.1186/s12284-018-0261-y
2.[] Lack of ACTPK1, an STY kinase, enhances ammonium uptake and use and promotes growth of rice seedlings under sufficient external ammonium.[The Plant Journal,93(6),(2018),992-1006]Beier, M., Obara, M., Taniai, A., Sawa, Y., Ishizawa, J., Soshida, H., Tomita, N., Yamanaka, T., Ishizuka, Y., Kudo, S., Yoshinari, A., Takeuchi, S., Kojima, S., Yamaya, T., Hayakawa, T.
3.[] Outgrowth of rice tillers requires availability of glutamine in the basal portions of shoots.[RICE,11(31),(2018),1-11]Ohashi, M., Ishiyama, K., Kojima, S., Konishi, N., Sasaki, K., Miyao, M., Hayakawa, T. and Yamaya, T.
10.1186/s12284-018-0225-2
4.[] Cytosolic glutamine synthetase isoenzymes play redundant roles in ammonium assimilation under low-ammonium conditions in roots of Arabidopsis thaliana.[Plant and Cell Physiology,59(3),(2018),601-613]Konishi, N., Saito, M., Imagawa, F., Kanno, K., Yamaya, T., Kojima, S.
10.1093/pcp/pcy014
5.[] The urea transporter DUR3 contributes to rice production under nitrogen-deficient and field conditions.[Physiologia Plantarum,in press,(2018)]Beier, MP, Fujita, T., Sasaki, K, Kanno, K., Ohashi, M., Tamura, W., Konishi, N., Saito, M., Imagawa, F., Ishiyama, K., Miyao, A., Yamaya, T., Kojima, S.
[2017]
6.[] Lack of cytosolic glutamine synthetase1;2 activity reduces nitrogen-dependent biosynthesis of cytokinin required for axillary bud outgrowth in rice seedlings.[Plant and Cell Physiology,58(4),(2017),679-690]Ohashi, M., Ishiyama, K., Kojima, S., Kojima, M., Sakakibara, H., Yamaya, T., Hayakawa, T.
7.[] Nitrate supply-dependent shifts in communities of root-associated bacteria in Arabidopsis.[Microbes and Environments,32(4),(2017),314-323]Konishi, N., Okubo, T., Yamaya, T., Hayakawa, T., and Minamizawa, K.
8.[] Transcriptional repressor IAA17 is involved in nitrogen use by modulating cytosolic glutamine synthetase GLN1;2 in Arabidopsis roots.[Soil Science and Plant Nutrition,63(2),(2017),163-170]Saito, M., Konishi, N., Kanno,K., Yamaya, T., and Kojima,S.*
9.[] A temporal and spatial contribution of asparaginase to asparagine catabolism during development of rice grains.[Rice,10(3),(2017),1-10]Yabuki, Y., Ohashi, M., Imagawa, F., Ishiyama, K., Beier, M. P., Konishi, N., Umetsu-Ohashi, T., Hayakawa, T., Yamaya, T. and Kojima, S.
10.1186/s12284-017-0143-8
[2016]
10.[] Contributions of two cytosolic glutamine synthetase isozymes to ammonium assimilation in Arabidopsis roots.[Journal of Expeerimental Botany,68(2),(2016),163-170]Konishi, N., Ishiyama, K., Beier, M, P., Inoue, E., Kanno, K., Yamaya, T., Takahashi, H. and Kojima, S.
10.1093/jxb/erw454
[2015]
11.[] Sulfur-responsive elements in the 3’-non-transcribed intergenic region are essential for the induction of SULFATE TRANSPORTER 2;1 gene expression in Arabidopsis roots under sulfur deficiency.[The Plant Cell,27(4),(2015),1279-1296]Maruyama-Nakashita, A., Watanabe-Takahashi, A., Inoue, E., Yamaya, T., Saito, K. and Takahashi, H.
12.[] Autophagy supports biomass production and nitrogen use efficiency at the vegetative stage in rice.[Plant Physiology,168(1),(2015),60-73]Wada, S., Hayashida, Y., Izumi, M., Kurusu, T., Hanamata, S., Kanno, K., Kojima, S., Yamaya, T., Kuchitsu, K., Makino, A., and Ishida, H.
13.[] A mathematical model of phloem sucrose transport as a new tool for designing rice panicle structure for high grain yield.[Plant Cell Physiology,56(4),(2015),605-619]Seki, M., Feugier, F.G., Song, X.-J., Ashikari, M., Nakamura, H., Ishiyama, K., Yamaya, Y., Ikeda, M., Kitano, H. and Satake, A.
14.[] Asparagine synthetase1, but not asparagine synthetase2, is responsible for the biosynthesis of asparagine following the supply of ammonium to rice roots.[Plant and Cell Physiology,56(4),(2015),769-778]Ohashi, M., Ishiyama, K., Kojima, S., Nakano, K., Kanno, K., Hayakawa, T. and Yamaya, T.*
15.[] Lack of cytosolic glutamine synthetase1;2 in vascular tissues of axillary buds caused severe reduction in their outgrowth and disorder of metabolic balance in rice seedlings.[The Plant Journal,81(1),(2015),347-356]Ohashi, M., Ishiyama, K., Kusano, M., Fukushima, A., Kojima, S., Hanada, A., Kanno, K., Hayakawa, T., Seto, Y., Kyozuka, J., Yamaguchi, S. and Yamaya, T.*
16.[] NADH-dependent glutamate synthase plays a crucial role in assimilating ammonium in Arabidopsis root.[Physiologia Plantarum,152(1),(2015),138-151]Konishi, N., Ishiyama, K., Matsuoka, K., Maru, I., Hayakawa, T., Yamaya, T. and Kojima, S.*
17.[] Fine mapping of a quantitative trait locus, qLG-9, that controls seed longevity in rice (Oryza sativa L.).[Theoretical and Applied Genetics,in press,(2015)]Sasaki, K., Takeuchi, Y., Miura, K., Yamaguchi, T., Ando, T., Ebitani, T., Higashitani, A., Yamaya, T., Yano, M. and Sato, T.
[2014]
18.[] Evidences supporting distinct functions of three cytosolic glutamine synthetases and two NADH-glutamate synthases in rice.[Journal of Experimental Botany,65,(2014),5519-5525]Yamaya, T.* and Kusano M.
19.[] NADH-dependent glutamate synthase assimilates ammonium in Arabidopsis roots.[Plant Signaling and Behavior,9(8),(2014)]Kojima, S. *, Konishi, N., Beier, M.P., Ishiyama, K., Maru, I., Hayakawa, T. and Yamaya. T.
10.4161/psb.29402
[2013]
20.[] Cytosolic glutamine synthetase1;2 is responsible for the primary assimilation of ammonium in rice roots.[Plant and Cell Physiology,54(6),(2013),934-943]Funayama, K.$, Kojima, S.$, Tabuchi-Kobayashi, M., Sawa, Y., Nakayama, Y., Hayakawa, T. and Yamaya, T.*
10.1093/pcp/pct046
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