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原著論文

2024

The peri-germ cell membrane: poorly characterized but key interface for plant reproduction.

Naoya Sugi, Andrea R. M. Calhau, Nathanaël M. A. Jacquier, Marina Millan-Blanquez, Jörg D. Becker, Kevin Begcy, Frédéric Berger, Cécile Bousquet-Antonelli, Daniel Bouyer, Giampiero Cai, Alice Y. Cheung, Sílvia Coimbra, Philipp Denninger, Thomas Dresselhaus, José A. Feijó, John E. Fowler, Danny Geelen, Ueli Grossniklaus, Tetsuya Higashiyama, David Honys, Tomoko Igawa, Gwyneth Ingram, Yvon Jaillais, Mark A. Johnson, Mariko Kato, Miki Kawachi, Tomokazu Kawashima, Yu-Jin Kim, Hong-Ju Li, Sébastien Mongrand, Kazuki Motomura, Shiori Nagahara, Kohdai P. Nakajima, Brad Nelms, Li-Jia Qu, Arp Schnittger, Stefan Scholten, Stefanie Sprunck, Meng-Xiang Sun, David Twell, Dolf Weijers, Wei-Cai Yang, Daisuke Maruyama, Thomas Widiez

Nature Plants 

Blue light irradiation induces pollen tube rupture in various flowering plants.

Naoya Sugi, Daichi Susaki, Yoko Mizuta, Tetsu Kinoshita, Daisuke Maruyama

Plant Cell Physiol., 65 (5), 704-707. 

2023

Exploring novel polytubey reproduction pathways utilizing cumulative genetic tools.

Naoya Sugi, Daisuke Maruyama

Plant Cell Physiol., 65 (5), 454-460. 

Removal of the endoplasma membrane upon sperm cell activation after pollen tube discharge.

Naoya Sugi, Rie Izumi, Shun Tomomi, Daichi Susaki, Tetsu Kinoshita, Daisuke Maruyama

Front. Plant Sci., 14, 1116289. 

Transcriptome analyses uncover reliance of endosperm gene expression on Arabidopsis embryonic development.

Zhang, Y., Maruyama, D., Toda, E., Kinoshita, A., Okamoto, T., Mitsuda, N., Takasaki, H. & Takagi, M. O.

FEBS Lett.,597 (3), 407-417. 

2022

Elongation of siliques without pollination 3 regulates nutrient flow necessary for embryogenesis.

Takasaki, H., Ikeda, M., Hasegawa, R., Yilin, Z., Sakamoto, S., Maruyama, D., Mitsuda, N., Kinoshita, T. & Ohme-Takagi, M.

Plant Cell Physiol., 64 (1), 117-123.

F-actin regulates the polarized secretion of pollen tube attractants in Arabidopsis synergid cells.

Susaki, D., Izumi, R., Oi, T., Takeuchi, H., Shin, J.M., Sugi, N., Kinoshita, T., Higashiyama, T., Kawashima, T. & Maruyama, D.

Plant Cell, 35 (4) 1222-1240.

Possible molecular mechanisms of persistent pollen tube growth without de novo transcription.

Motomura, K., Sugi, N., Takeda, A., Yamaoka, S. & Maruyama, D.

Front. Plant Sci., 13, 1020306.

2021

Motomura, K. Takeuchi, H. Notaguchi, M. Tsuchi, H. Takeda, A. Kinoshita, T. Higashiyama, T. & Maruyama, D.

Nat. Commun., 12 (1), 2331.

Dynamics of the cell fate specifications during female gametophyte development in Arabidopsis.

Susaki, D., Suzuki, T., Maruyama, D., Ueda, M., Higashiyama, T. & Kurihara, D.

PLoS Biol., 19 (3), e3001123.

2020

Ali, M.F., Fatema, U., Peng, X., Hacker, S.W., Maruyama, D., Sun, M.X. & Kawashima, T.

Proc. Nat. Acad. Sci. U.S.A., 117 (51), 32757-32763.

KAKU4 determines the migration order of the vegetative nucleus and sperm cells in pollen tubes.

Goto, C., Tamura, K., Nishimaki, S., Maruyama, D. & Hara-Nishimura, I.

J. Exp. Bot., 71 (20), 6273-6281.

Arabidopsis GEX1 is a nuclear membrane protein of gametes required for nuclear fusion during reproduction.

Nishikawa, S.I., Yamaguchi, Y., Suzuki, C., Yabe, A., Sato, Y., Kurihara, D., Sato, Y., Susaki, D., Higashiyama, T. & Maruyama, D.

Front. Plant Sci., 11, 548032.

Maruyama, D., Higashiyama, T., Endo, T. & Nishikawa, S.I.

Plant Cell Physiol., 61 (1), 29-40.

2018

Motomura, K., Kawashima, T., Berger, F., Kinoshita, T., Higashiyama, T. & Maruyama, D.

J. Cell Sci., 131 (2), jcs204123.

2017

Ohtsu, M., Sato, Y., Kurihara, D., Suzaki, T., Kawaguchi, M., Maruyama, D. & Higashiyama, T.

Protoplasma, 254 (6), 2107-2115.

Ohtsu, M., Kurihara, D., Sato, Y., Suzaki, T., Kawaguchi, M., Maruyama, D. & Higashiyama, T.

Cytologia, 82 (3), 251-259.

Zhao, X., Bramsiepe, J., Van Durme, M., Komaki, S., Prusicki, M.A., Maruyama, D., Forner, J., Medzihradszky, A., Wijnker, E., Harashima, H., Lu, Y., Schmidt, A., Guthörl, D., Logroño, R.S., Guan, Y., Pochon, G., Grossniklaus, U., Laux, T., Higashiyama, T., Lohmann, J.U., Nowack, M.K. & Schnittger, A.

Science, 356 (6336), eaaf6532.

Susaki, D., Maruyama, D., Yelagandula, R., Berger, F. & Kawashima, T.

Methods in Mol. Biol., 1669, 47-54.

2016

Kasahara R.D., Notaguchi, M., Nagahara, Suzuki, T., Susaki, D., Homma, Y., Maruyama, D. & Higashiyama, T.

Sci. Adv., 2 (10), e1600554.

Ohtsu, M., Kurihara, D., Sato, Y., Suzaki, T., Kawaguchi, M., Maruyama, D. & Higashiyama, T.

Cell Struct. Funct., 41 (2), 121-125.

The AMOR arabinogalactan sugar chain induces pollen-tube competency to respond to ovular guidance.

Mizukami, A. G., Inatsugi, R., Jiao, J., Kotake, T., Kuwata, K., Ootani, K., Okuda, S., Sankaranarayanan, S., Sato, Y., Maruyama, D., Iwai, H., Garenaux, E., Sato, C., Kitajima, K., Tsumuraya, Y., Mori, H., Yamaguchi, J., Itami, K., Sasaki, N. & Higashiyama, T.

Curr. Biol., 26 (8), 1091-1097.

2015

Maruyama, D., Völz, D., Takeuchi, H., Mori, T., Igawa, T., Kurihara, D., Kawashima T., Ueda, M., Ito, M., Umeda, M., Nishikawa, S., Groß-Hardt, R. & Higashiyama T

Cell, 161 (4), 907-918.

2014

Maruyama, D., Yamamoto, M., Endo, T. & Nishikawa, S.I.

Plant Cell Physiol., 55 (11), 1937-1944.

Kawashima, T., Maruyama, D., Shagirov, M., Li, J., Hamamura, Y., Yelagandula, R., Toyama, Y. & Berger, F.

eLife, 3, e04501.

Maruyama, D., Sugiyama T., Endo, T. & Nishikawa, S.I.

Plant Cell Physiol., 55 (4), 801-810.

2013

Maruyama, D., Hamamura, Y., Takeuchi, H., Susaki, D., Nishimaki, M., Kurihara, D., Kasahara, R.D. & Higashiyama, T.

Dev. Cell, 25 (3), 317-323.

2012

Kasahara, R.D., Maruyama, D., Hamamura, Y., Sakakibara, T., Twell, D. & Higashiyama, T.

Curr. Biol., 22 (12), 1084-1089.

2008

2005

Nishikawa, S., Zinkl, G.M., Swanson, R.J., Maruyama, D. & Preuss, D.

BMC Plant Biol., 5, 22.

​総説

2023

Exploring novel polytubey reproduction pathways utilizing cumulative genetic tools.

Naoya Sugi, Daisuke Maruyama

Plant Cell Physiol., Online ahead of print.

2016

Maruyama, D., Ohtsu, M. & Higashiyama, T.

Sem. Cell Dev. Biol., 60, 127-135.

2015

Maruyama, D., Kawashima T. & Higashiyama T.

Oncotarget, 6 (31), 30447-30448.

経時観察でまだまだ見つかる新現象

​丸山大輔

日経バイオテク,

バイオイメージング最前線(第3回)

DOI: -

植物の受精における細胞融合による残存助細胞の迅速な排除

丸山大輔 & 東山哲也

ライフサイエンス新着論文レビュー

2014

花粉管の誘引停止の制御機構と受精戦略

丸山大輔 & 東山哲也

化学と生物, 52 (6), 379-385.

2013

2つの雌性生殖細胞による独立の制御が複数の花粉管の誘引を阻止する

丸山大輔 & 東山哲也

ライフサイエンス新着論文レビュー

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