オリジナル論文

1.KymoTip: High-throughput Characterization of Tip-growth Dynamics in Plant Cells. Kang Z., Kimata Y., Nonoyama T., Ikeuchi T., Kuchitsu K., Tsugawa S., Ueda M. Plant J. 2026 125(2):e70691.

2.Metabolic positron emission tomography imaging and tumor growth inhibition during the Q neuron-induced hibernation-like state in mice. Nomura S, Arakaki W, Kato A, Fujie N, Ishikawa K, Wataki A, Ono H, Tahara T, Wada Y, Watanabe Y, Doi H, Sunagawa GA, Mukai H. Biochem. Biophys. Res. Commun., 2026, 153268.

3.Influence of Poly(A) Sequences and Genetic Elements on iCre Expression and Induction of a Hibernation-Like State in Mice. Ono H, Takaya Abe T, Ishikawa K, Wataki A, Fujino S, Matsumoto M, Kiyonari H, Sunagawa GA. J. Comp. Physiol. B, 2026, in press.

4.Chromosome-scale genome assembly of Malcolmia littorea using long-read sequencing and single-pollen genotyping technologies. Shirasawa K., Yoshitake K., Kondo H., Kikuchi S., Koiwai K., Fujii S. DNA Research, 2026 Jan 9;33(1):dsag001.

総説・書籍

1.Orchestrating polarity in embryo: from molecular programming to geometric rules. Kimata Y., Ueda M. Curr. Opin. Plant Biol. 2026, in press.

2.Long-Range Signals Built upon Plant Structural Continuity. Suda H, Hagihara T, Ogawa S, Ebine K, Nakamura M, Toyota M. Annu Rev Plant Biol. in press

和文総説・書籍

1.Ca2+シグナルから紐解く概日時計の分子機構,飯塚 康介, 金 尚宏,細胞 2026; 58: 76-79.
2.細胞機能の温度補償性,金 尚宏,冬眠のはなし in press
3.培地による細胞時計の調節,金 尚宏,生き物とリズムの事典 in press

オリジナル論文

1.Deep learning-based cytoskeleton segmentation for accurate high-throughput measurement of cytoskeleton density. Horiuchi R., Kamimura A., Hanaki Y., Matsumoto H., Ueda M., Higaki T. Protoplasma. 2025, 262(3):739-751

2.Distinct actin microfilament localization during early cell plate formation through deep learning-based image restoration, Kikuchi S., Kotaka T., Hanaki Y., Ueda M., Higaki T. Plant Cell Rep. 2025, 8;44(6):115.

3.Brassinosteroids promote pollen tube guidance by coordinating gene expression in male and female reproductive tissues. Matsuura-Tokita K., Suzuki T., Kimata Y., Takebayashi Y., Ueda M., Nakano T., Sakakibara H., Nakano N., and Higashiyama T. Cell Reports. 2025, 22;44(7):115815.

4.Agent-Based Simulation of Cortical Microtubule Band Movement in the Arabidopsis Zygote. Nonoyama T., Kang Z., Matsumoto H., Nakagawa S., Ueda M., Tsugawa S. Sci Rep. 2025, 15: 25787.

5.A simple and versatile plasma membrane staining method for visualizing living cell morphology in reproductive tissues across diverse plant species. Hanaki Y., Suzuki H., Nakamura S., Nakagawa S., Tada K., Matsumoto H., Kimata Y., Sato Y., Ueda M. Plant Methods. 2025, 21(1):149.

6.Whole-genome sequencing of Crematogaster osakensis (Hymenoptera: Formicidae: Myrmicinae) Gotoh A., Toyoda A., Yamabe T. Itoh T. DNA Research 2025; dsaf012

7.Real-space observation of salt-dependent aging in Laponite gels. Saito S, Kim S, Taniguchi Y, Yanagisawa M., Soft Matter. 2025. doi: 10.1039/D4SM01289E.

8.Monodisperse and size-modulable spherical optical resonators produced from synthetic polymers by inkjet printing toward applications under water. Dewi KK, Yamagishi WH, Heah Y, Kim S, Kubono A, Taniguchi Y, Yamamoto Y. Mater Adv. 2025;6(15):5030-5034.

9.Targeted Delivery of Bezafibrate via Silica Nanoparticles Restores Mitochondrial Function and Reduces Oxidative Stress in Insulin-Resistant Cells. Jannat A, Chinnathambi S, Packirisamy G, Shano LB, Subramani K, Mangaiyarkarasi R, Taniguchi Y, Pandian GN. ACS Appl Bio Mater. 2025. doi: 10.1021/acsabm.4c01659.

10.MSL10 is a high-sensitivity mechanosensor in the tactile sense of the Venus flytrap. Suda H, Asakawa H, Hagihara T, Ohi S, Segami S, Hasebe M, Toyota M. Nat Commun. 2025;16(1):8280.

11.Humidity-driven ABA depletion determines plant-pathogen competition for leaf water. Yasuda S, Shinozawa A, Weng Y, Rajendram A, Hirase T, Ishizaki H, Suzuki R, Ueda S, Sk R, Takebayashi Y, Yotsui I, Toyota M, Okamoto M, Saijo Y. Nat Commun. 2025;17(1):787.

12.Inference of mechanical forces through 3D reconstruction of the closing motion in venus flytrap leaves. Tsugawa S, Asakawa H, Hirata M, Nonoyama T, Kang Z, Toyota M, Suda H. Sci Rep. 2025;15(1):24860.

13.Induction of systemic resistance through calcium signaling in Arabidopsis exposed to air plasma-generated dinitrogen pentoxide. Sasaki S, Iwamoto H, Takashima K, Toyota M, Higashitani A, Kaneko T. PLoS One. 2025;20(2):e0318757.

14.Membrane vesicle production via cell-to-cell communication-induced autolysis. Nagasawa R, Ito T, Yamamoto C, Unoki M, Obana N, Nomura N, Toyofuku M. Microbiol Spectr. 2025;13(7):e0033425.

15.A land plant specific VPS13 mediates polarized vesicle trafficking in germinating pollen. Tangpranomkorn S., Kimura Y., Igarashi M., Ishizuna F., Kato Y., Suzuki T., Nagae T., Fujii S., Takayama S. New Phytologist, 2025; 245: 1072–1089.

16.Elevated hematopoietic stem cell frequency in mouse alveolar bone marrow. Niizuma K, Morikawa S, Gars E, Xiang J, Matsubara-Takahashi T, Saito R, Takematsu E, Wang Y, Xu H, Wakimoto A, Tan TK, Kubota Y, Chan CKF, Weissman IL, Nakagawa T, Wilkinson AC, Nakauchi H, Yamamoto R. Stem Cell Reports, 2025;20:102374. doi: 10.1016/j.stemcr.2024.11.004.

総説・書籍

1.Synthetic torpor: advancing metabolic regulation for medical innovations. Wu W, Sunagawa GA, Chen H. Nat. Metab. 2025, 7, 1511–1523.

和文総説・書籍

1.最新 精子学（書籍）, 後藤 彩子,稲葉一男 編集、分担執筆 筑波大学出版会　2025; 175-178
2.概日時計におけるカルシウムの役割, 飯塚 康介, 金 尚宏, アグリバイオ 2025; 9: 53-57.
3.サーカディアンリズム, 金 尚宏, 生き物と温度の事典 2025
4.量子の目で見つめる生命の時計と温度計, 金 尚宏, 時間生物学 2025: 31: 84-85.

受賞

受賞
【豊田 正嗣】
・Tsuneko & Reiji Okazaki Award（岡崎賞）
・島津奨励賞
【豊福 雅典】
・第9回バイオインダストリー奨励賞
【藤井 壮太】
・日本植物生理学会奨励賞

オリジナル論文

1.HD-ZIP IV genes are essential for embryo initial cell polarization in the radial axis initiation in Arabidopsis. Tanaka H., Matsushita Y., Hanaki Y., Higaki T., Kamamoto N., Matsushita K., Higashiyama T., Fujimoto K., Ueda M. Curr Biol. 2024, 34(20) 4639-4649.

2.A viscoelastic-plastic deformation model of hemisphere-like tip growth in Arabidopsis zygotes. Kang Z., Nonoyama T., Ishimoto Y., Matsumoto H., Nakagawa S., Ueda M., Tsugawa S. Quant Plant Biol. 2024, 5: e13.

3.Establishment of a rapid, cost-effective, and accurate method for assessing insect sperm viability. Takeshima M. Gotoh A. J Insect Physiol. 2024; 158: 104682.

4. Proteomic analysis of spermathecal fluid reveals factors related to long-term sperm storage in ant queens. Gotoh A. Mol. Rep. Dev. 2024; 91: e23733.

5. The Role of circadian clock gene Arntl in the winter depression-like behavior in melatonin-proficient female CBA/N mice. Ren L., Okimura K., Ishikawa A., Kon N., Shimba S, Yoshimura T. Biochem. Biophys. Res. Commun. 2024; 734: 150790.

6. Unveiling the cell dynamics during the final shape formation of the tarsus in Drosophila adult leg by live imaging. Hiraiwa S, Takeshita S, Terano T, Hayashi R, Suzuki K, Tajiri R, Kojima T. Dev Genes Evol. 2024 234(2):117-133.

7. Cell-free translation system with artificial lipid-monolayer particles as a unique tool for characterizing lipid-monolayer binding proteins. Kuroiwa F, Suda H, Yabuki M, Atsuzawa K, Yamaguchi H, Toyota M, Kaneko Y, Yamashita S, Takahashi S, Tozawa Y. Biosci Biotechnol Biochem. 2024;88(5):555-560.

8. Calcium signaling triggers early high humidity responses in Arabidopsis thaliana. Hussain S, Suda H, Nguyen CH, Yan D, Toyota M, Yoshioka K, Nambara E. Proc Natl Acad Sci U S A. 2024;121(51):e2416270121.

9. Contractile injection systems facilitate sporogenic differentiation of Streptomyces davawensis through the action of a phage tapemeasure protein-related effector. Nagakubo T, Nishiyama T, Yamamoto T, Nomura N, Toyofuku M. Nat Commun. 2024;15(1):4442.

10. Nardilysin determines hematopoietic stem cell fitness by regulating protein synthesis. Oshima S, Sinha R, Ohno M, Nishi K, Eto K, Takaori-Kondo A, Nishi E, Yamamoto R. Biochem Biophys Res Commun, 2024; 22;693:149355.

11. Regulation of lymphoid-myeloid lineage bias through regnase-1/3-mediated control of Nfkbiz. Uehata T, Yamada S, Ori D, Vandenbon A, Giladi A, Jelinski A, Murakawa Y, Watanabe H, Takeuchi K, Toratani K, Mino T, Kiryu H, Standley DM, Tsujimura T, Ikawa T, Kondoh G, Landthaler M, Kawamoto H, Rodewald HR, Amit I, Yamamoto R, Miyazaki M, Takeuchi O. Blood, 2024;143:243-257.

総説・書籍

1.Polarity establishment in the plant zygote at a glance. Matsumoto H., Ueda M. J Cell Sci. 2024, Mar 1;137(5)

2.Conservation of Long-Range Signaling in Land Plants via Glutamate Receptor-Like Channels. Toyota M. Plant Cell Physiol. 2024;65(4):657-659.

和文総説・書籍

1.植物の細胞分裂を阻害する新たな薬剤の発見, 木全祐資, 植田美那子, 生体の科学 2024, 75(5):2-3.
2.クチクラタンパク質による昆虫の体形づくり：体形を“表面的に”制御する分子の働き, 田尻怜子, 蚕糸・昆虫バイオテック 2024 93 (1), 7-12.

受賞

【金 尚宏】
・UBE学術振興財団 学術奨励賞
【谷口 雄一】
・第56回市村学術賞奨励賞
【豊田 正嗣】
・埼玉大学 学長表彰 学長賞
・日本植物生理学会 奨励賞
【藤井 壮太】
・日本学士院奨励賞
・第8回バイオインダストリー奨励賞

オリジナル論文

1.Behavior of male gamete fusogen GCS1/HAP2 and the regulation in Arabidopsis double fertilization. Shiba Y., Takahashi T., Ohashi Y., Ueda M., Mimuro A., Sugimoto J., Noguchi Y., Igawa T. Biomolecules. 2023, 13(2), 208.

2.Novel inhibitors of microtubule organization and phragmoplast formation in diverse plant species. Kimata Y., Yamada M., Murata M., Kuwata K., Sato A., Suzuki T., Kurihara D., Hasebe M., Higashiyama T., Ueda M. Life Sci Alliance. 2023, 6(5): e202201657.

3.Coordinate Normalization of Live-Cell Imaging Data Reveals Growth Dynamics of the Arabidopsis Zygote. Kang Z., Matsumoto H., Nonoyama T., Nakagawa S., Ishimoto Y., Tsugawa S., Ueda M. Plant Cell Physiol. 2023, 64(11):1279-1288

4.Comprehensive and quantitative analysis of intracellular structure polarization at the apical-basal axis in elongating Arabidopsis zygotes. Hiromoto Y., Minamino N., Kikuchi S., Kimata Y., Matsumoto H., Nakagawa S., Ueda M., Higaki T. Sci Rep. 2023, 13(1):22879.

5.Evolution of meconium removal from cocoons in ants. Gotoh A., Ito F., Mizuno R., Shimamoto Y., Kinomura K., Katsura E. and Hashim R. Insect Soc. 2023; 70: 373-379.

6.Near-anoxia induces immobilization and sustains viability of sperm stored in ant queens. Gotoh A., Takeshima M. and Mizutani K. Sci. Rep. 2023; 13:3029

7.Cold-induced Suspension and Resetting of Ca2+ and Transcriptional Rhythms in the Suprachiasmatic Nucleus Neurons. Enoki R., Kon N., Shimizu K., Kobayashi K., Yamaguchi Y., Nemoto T. iScience 2023; 26: 108390.

8.Singularity response reveals entrainment properties in mammalian circadian clock. Masuda K., Kon N., Iizuka K., Fukada Y., Sakurai T, Hirano A., Nature Commun 2023; 14: 2819.

9.Network-driven intracellular cAMP coordinates circadian rhythm in the suprachiasmatic nucleus. Ono D., Wang H., Hung CJ, Wang H-T., Kon N., Yamanaka A. Li Y., SugiyamaT. Science Advances 2023; 9: eabq7032.

10.Notch signaling generates the “cut here line” on the cuticle of the puparium in Drosophila melanogaster. Tajiri R, Hirano A, Kaibara YY, Tezuka D, Chen Z, Kojima T., iScience. 2023 ;26(8):107279.

11.Recent methodological advances towards single-cell proteomics. Kim S, Kamarulzaman L, Taniguchi Y. Proc Jpn Acad Ser B Phys Biol Sci. 2023;99(8):306-327.

12.Green leaf volatile sensory calcium transduction in Arabidopsis. Aratani Y, Uemura T, Hagihara T, Matsui K, Toyota M. Nat Commun. 2023;14(1):6236.

13.Cell polarity linked to gravity sensing is generated by LZY translocation from statoliths to the plasma membrane. Nishimura T, Mori S, Shikata H, Nakamura M, Hashiguchi Y, Abe Y, Hagihara T, Yoshikawa HY, Toyota M, Higaki T, Morita MT. Science. 2023;381(6661):1006-1010.

14.Shoot gravitropism and organ straightening cooperate to arrive at a mechanically favorable shape in Arabidopsis., Tsugawa S, Miyake Y, Okamoto K, Toyota M, Yagi H, Terao Morita M, Hara-Nishimura I, Demura T, Ueda H. Sci Rep. 2023;13(1):11165.

15.Local calcium signal transmission in mycelial network exhibits decentralized stress responses. Itani A, Masuo S, Yamamoto R, Serizawa T, Fukasawa Y, Takaya N, Toyota M, Betsuyaku S, Takeshita N. PNAS Nexus. 2023;2(3):pgad012.

16.Genotoxic stress stimulates eDNA release via explosive cell lysis and thereby promotes streamer formation of Burkholderia cenocepacia H111 cultured in a microfluidic device., Heredia-Ponce Z, Secchi E, Toyofuku M, Marinova G, Savorana G, Eberl L. NPJ Biofilms Microbiomes. 2023;9(1):96.

17.Iron Delivery through Membrane Vesicles in Corynebacterium glutamicum., Kawashima K, Nagakubo T, Nomura N, Toyofuku M. Microbiol Spectr. 2023;11(3):e0122223.

18.SHI family transcription factors regulate an interspecific barrier. Fujii S., Yamamoto E., Ito S., Tangpranomkorn S., Kimura Y., Miura H., Yamaguchi N., Kato Y., Niidome M., Yoshida A., Shimosato-Asano H., Wada Y., Ito T., Takayama S. Nature Plants, 2023; 9: 1-12.

総説・書籍

1.Roles of Ca2+ Signaling in Molecular Clocks. Kon N., Enoki R., Wang H-T., Iwamoto T. Fukada Y., Circadian Clocks 2023; 253-264.

2.Composition and functions of bacterial membrane vesicles. Toyofuku M, Schild S, Kaparakis-Liaskos M, Eberl L. Nat Rev Microbiol. 2023;21(7):415-430.

和文総説・書籍

1.アリの生殖器官の不思議（総説), 後藤彩子, 昆虫と自然2023; 4月号21-25.
2.概日時計の温度補償性とCa2+シグナルの役割. 金 尚宏、榎木 亮介, 低温科学 2023; 81.
3.時計遺伝子, 金 尚宏、小野 大輔, 脳科学辞典 2023
4.冬眠と疾患――人工冬眠がもたらす次世代の医療, 砂川玄志郎, 科学2023年9月号、岩波書店
5.クチクラの変形による昆虫の形づくり, 田尻怜子, 昆虫と自然 58(2) 2023年1月号36-39.
6.蛍光バイオセンサーによるオジギソウの虫害防御運動シグナルの解明, 豊田正嗣, 植物の生長調節, 2023;58:148-154.
7.植物の超階層生物学：ゲノミクス×フェノミクス×生態学でひもとく多様性, 藤井壮太（分担）, 文一総合出版,2023, ISBN-13: 978-4829962107

受賞

【谷口 雄一】
・第15回中谷賞奨励賞
・第5回晝馬輝夫 光科学賞
【藤井 壮太】
・日本学術振興会賞

オリジナル論文

1.Morphology of immatures of the thelytokous ant, Monomorium triviale Wheeler (Formicidae: Myrmicinae: Solenopsidini) with descriptions of the extraordinary last-instar queen larvae. Idogawa N., Gotoh A. Dobata S.Zootaxa 2022; 5105:253-268

2.Real time monitoring of cold Ca2+ dependent transcription and its modulation by NCX inhibitors. Wang H-T., Miyairi S., Kitamura M., Iizuka K., Asano Y., Yoshimura T., Kon N. Sci. Rep. 2022; 12: 17325.

3.Calcium-mediated rapid movements defend against herbivorous insects in Mimosa pudica. Hagihara T, Mano H, Miura T, Hasebe M, Toyota M. Nat Commun. 2022;13(1):6412.

4.Mechanosensory trichome cells evoke a mechanical stimuli-induced immune response in Arabidopsis thaliana. Matsumura M, Nomoto M, Itaya T, Aratani Y, Iwamoto M, Matsuura T, Hayashi Y, Mori T, Skelly MJ, Yamamoto YY, Kinoshita T, Mori IC, Suzuki T, Betsuyaku S, Spoel SH, Toyota M, Tada Y. Nat Commun. 2022;13(1):1216.

5.Phage Genes Induce Quorum Sensing Signal Release through Membrane Vesicle Formation. Yasuda M, Yamamoto T, Nagakubo T, Morinaga K, Obana N, Nomura N, Toyofuku M. Microbes Environ. 2022;37(1):ME21067.

6.The role of peptidoglycan hydrolases in the formation and toxicity of Pseudomonas aeruginosa membrane vesicles. Chen YC, Kalawong R, Toyofuku M, Eberl L. Microlife. 2022 Jun 30;3:uqac009.

7.Controllable secretion of multilayer vesicles driven by microbial polymer accumulation. Koh S, Sato M, Yamashina K, Usukura Y, Toyofuku M, Nomura N, Taguchi S. Sci Rep. 2022;12(1):3393.

8.Treatment of a genetic brain disease by CNS-wide microglia replacement. Shibuya, Y., Kumar, K. K., Mader, M. M.-D., Yoo, Y., Ayala, L. A., Zhou, M., Mohr, M. A., Neumayer, G., Kumar, I., Yamamoto, R., Marcoux, P., Liou, B., Bennett, F. C., Nakauchi, H., Sun, Y., Chen, X., Heppner, F. L., Wyss-Coray, T., Südhof, T. C., Wernig, M., Science Translational Medicine, 2022; 14: eabl9945.

総説・書籍

1.Single molecule detection in the study of gene expression., Kumar V, Leclerc S, Taniguchi Y., In: Appasani K, Appasani RK, editors. Single-Molecule Science. Cambridge: Cambridge University Press; 2022. p.127-141.

2.In vivo Imaging Enables Understanding of Seamless Plant Defense Responses to Wounding and Pathogen Attack. Toyota M, Betsuyaku S. Plant Cell Physiol. 2022;63(10):1391-1404.

3.A Continuous Extension of Plant Biotic Interactions Research. Saijo Y, Betsuyaku S, Toyota M, Tsuda K. Plant Cell Physiol. 2022;63(10):1321-1323.<br>

4.Integration of long-range signals in plants: A model for wound-induced Ca2+, electrical, ROS, and glutamate waves., Suda H, Toyota M., Curr Opin Plant Biol. 2022;69:102270.

5.A Single Shot of Vesicles. Toyofuku M, Kikuchi Y, Taoka A., Microbes Environ. 2022;37(6):ME22083.

6.Plant physiology: ATP at the center of self-recognition., Fujii S. Curr. Biol., 2022; 32: R941–R969.

7.The selfing syndrome and beyond: Diverse evolutionary consequences of mating system transitions in plants. Tsuchimatsu T, Fujii S., Philos. Trans. R. Soc. B 2022; 377: 20200510.

和文総説・書籍

1.代謝の能動的制御─冬眠と日内休眠, 砂川玄志郎, 実験医学2022年12月号, Vol. 40, No. 19, 羊土社
2.人類冬眠計画, 砂川玄志郎, 岩波書店, 2022/4/18
3.うじ虫の皮が体を形づくるしくみ, 田尻怜子, 生体の科学 73(4) 348-352 2022年8月
4.植物のグルタミン酸受容体を介した全身性傷害応答, 豊田正嗣, 細胞. 2022;54 (6):15-18.
5.植物の長距離・高速シグナルのリアルタイムイメージング, 上村卓矢, 豊田正嗣, 生物工学会誌. 2022;100 (7):363-366.

受賞

【植田 美那子】
・日本学術振興会賞
・日本植物生理学会奨励賞
【谷口 雄一】
・令和4年度科学技術分野の文部科学大臣表彰 科学技術賞
・第9回京都SMI中辻賞

オリジナル論文

1.Dynamic rearrangement and directional migration of tubular vacuoles are required for the asymmetric division of the Arabidopsis zygote., Matsumoto H., Kimata Y., Higaki T., Higashiyama T., Ueda M., Plant Cell Physiol. 2021, 62: 1280–1289.

2.Modulation of circadian clock by crude drug extracts used in Japanese Kampo medicine. Zhang M., Kobayashi K., Atsumi H., Katada Y., NakaneY., Chen J, Nagano R., Kadofusa N., Nishiwaki-Ohkawa T, Kon N, Hirota T., Sato A., Makino T., Yoshimura T., Sci. Rep. 2021; 11: 21038-21038.

3.Na+/Ca2+ exchanger mediates cold Ca2+ signaling conserved for temperature-compensated circadian rhythms. Kon N., Wang H-T., Kato YS, Uemoto K., Kawamoto N., Kawasaki K., Enoki R., Kurosawa G., Nakane T., Sugiyama Y., Tagashira H., Endo M., Iwasaki H., Iwamoto T., Kume, K., Fukada Y., Science Advances 2021; 7: 8132.

4.Hi-CO: 3D genome structure analysis with nucleosome resolution. Ohno M, Ando T, Priest DG, Taniguchi Y., Nat Protoc. 2021;16(7):3439-3469.

5.iNucs: inter-nucleosome interactions. Oveisi M, Shukla M, Seymen N, Ohno M, Taniguchi Y, Nahata S, Loos R, Mufti GJ, Allshire RC, Dimitrov S, Karimi MM., Bioinformatics. 2021;37(23):4562-4563.

6.CYCLIC NUCLEOTIDE-GATED ION CHANNEL 2 modulates auxin homeostasis and signaling. Chakraborty S, Toyota M, Moeder W, Chin K, Fortuna A, Champigny M, Vanneste S, Gilroy S, Beeckman T, Nambara E, Yoshioka K., Plant Physiol. 2021;187(3):1690-1703.

7.Wide-Field, Real-Time Imaging of Local and Systemic Wound Signals in Arabidopsis. Uemura T, Wang J, Aratani Y, Gilroy S, Toyota M., J Vis Exp. 2021;(172).

8.Autolysis-mediated membrane vesicle formation in Bacillus subtilis. Abe K, Toyofuku M, Nomura N, Obana N., Environ Microbiol. 2021;23(5):2632-2647.

総説・書籍

1.What is quantitative plant biology? Autran D., Bassel GW., Chae E., Ezer D., Ferjani A., Fleck C., Hamant O., Hartmann FP., Jiao Y., Johnston IG., Kwiatkowska D., Lim BL., Mahönen AP., Morris RJ., Mulder BM., Nakayama N., Sozzani R., Strader LC., Tusscher K., Ueda M., Quant Plant Biol. 2021, 2: e10

2.The fast and the furious: rapid long-range signaling in plants. Johns S, Hagihara T, Toyota M, Gilroy S. Plant Physiol. 2021;185(3):694-706.

和文総説・書籍

1.植物の長距離・高速Ca2+シグナル,豊田正嗣, 生物物理. 2021;62 (1):56-57.

受賞

【谷口 雄一】
・第18回日本学術振興会賞
・第39回大阪科学賞
【豊福 雅典】
・第31回つくば奨励賞(若手研究者部門)
・第20回日本農学進歩賞