Kou Y, Kawano Y. The OsATG8-OsATG1-SPIN6 module: Linking nutrient sensing to OsRac1-mediated rice immunity via autophagy-independent mechanisms. Mol Plant<\/strong> 2025 18(10):1623-1625. <\/p>\n Jiang, Y, Liang, J, Wang, C, Li, T, , Kawano, Y, Nagawa, S,Stem Cell Factors BAM1 and WOX1 Suppressing Longitudinal Cell Division of Margin Cells Evoked by Low-Concentration Auxin in Young Cotyledon of Arabidopsis IJMS<\/strong> 2025 26(10) 4724-4724<\/p>\n Akamatsu A, Ishikawa T, Tanaka H, Kawano Y, Hayashi M, Takeda N. Accumulation of phosphatidylinositol 4,5-bisphosphate inhibits the excessive infection of rhizobia in Lotus japonicus. New Phytol<\/strong> 2025 248(4):2005-2020.<\/p>\n \u8d64\u677e \u660e, \u6cb3\u91ce \u8cb4\u5b50, \u6cb3\u91ce \u6d0b\u6cbb \u690d\u7269\u2012\u75c5\u539f\u83cc\u306e\u76f8\u4e92\u4f5c\u7528\u306b\u304a\u3051\u308bRac\/Rop \u30d5\u30a1\u30df\u30ea\u30fc\u4f4e\u5206\u5b50\u91cf GTP \u7d50\u5408\u30bf\u30f3\u30d1\u30af\u8cea\u306e\u5f79\u5272 \u751f\u5316\u5b66<\/strong> 2025 97\u5dfb4\u53f7<\/p>\n Li Y, Wang Q, Jia H, Ishikawa K, Kosami KI, Ueba T, Tsujimoto A, Yamanaka M, Yabumoto Y, Miki D, Sasaki E, Fukao Y, Fujiwara M, Kaneko-Kawano T, Tan L, Kojima C, Wing RA, Sebastian A, Nishimura H, Fukada F, Niu Q, Shimizu M, Yoshida K, Terauchi R, Shimamoto K, Kawano Y. An NLR paralog Pit2 generated from tandem duplication of Pit1 fine-tunes Pit1 localization and function Nat Commun<\/strong> 2024 15(1):4610<\/p>\n Fukada F. Mitigating the Trade-Off between Growth and Stress Resistance in Plants by Fungal Volatile Compounds. Plant Cell Physiol<\/strong> 2024 65(2):175-178<\/p>\n Fukada F. Morphogenesis and adaptive strategies for infection in plant pathogenic fungi. J. Gen. Plant Pathol.<\/strong> 90: 371-373. <\/p>\n \u6df1\u7530\u53f2\u7f8e\u3000\u690d\u7269\u75c5\u539f\u7cf8\u72b6\u83cc\u306e\u5f62\u614b\u5f62\u6210\u3068\u611f\u67d3\u9069\u5fdc\u6226\u7565\uff0e\u65e5\u672c\u690d\u7269\u75c5\u7406\u5b66\u4f1a\u5831<\/strong> 90: 144<\/p>\n Wang Q, Kawano Y. The mutual regulation between the pattern recognition receptor OsCERK1 and the E3 ubiquitin ligase OsCIE1 controls induction and homeostasis of immunity. Sci Bull (Beijing)<\/strong> doi: 10.1016\/j.scib.2024.07.002.<\/p>\n Liang D, Yang D, Li T, Zhu Z, Yan B, He Y, Li X, Zhai K, Liu J, Kawano Y, Deng Y, Wu XN, Liu J, He Z. A PRA-Rab trafficking machinery modulates NLR immune receptor plasma membrane microdomain anchoring and blast resistance in rice. Sci Bull (Beijing)<\/strong> doi: 10.1016\/j.scib.2024.12.007. <\/p>\n Wang P, Jia H, Guo T, Zhang Y, Wang W, Nishimura H, Li Z, Kawano Y. The secreted immune response peptide 1 functions as a phytocytokine in rice immunity J Exp Bot<\/strong> 2023 74(3):1059-1073<\/p>\n Wang, Q., Li, Y., Kosami, K., Liu, C. Li, J., Zhang, D., Miki, D., Kawano, Y.Three highly conserved hydrophobic residues in the predicted \u03b12 helix of rice NLR protein Pit contribute to its localization and immune induction Plant Cell Environ<\/strong> 2022 45(6):1876-1890<\/p>\n Wang Q, Kawano Y. Improving disease resistance to rice false smut without yield penalty by manipulating the expression of effector target Mol Plant.<\/strong> 2022 Dec 5;15(12):1834-1837<\/p>\n Kodama S, Kajikawa N, Fukada F<\/b>, Kubo Y. Niemann-Pick Type C Proteins Are Required for Sterol Transport and Appressorium-Mediated Plant Penetration of Colletotrichum orbiculare mBio<\/strong> 2022 Oct 26;13(5):e0223622<\/p>\n Kawano Y. Fine-tuning ROS homeostasis by ROD1 is a battleground between rice and Magnaporthe oryzae Mol Plant<\/strong> 2021 14(12):1979-1981<\/p>\n Akamatsu, A., Fujiwara, M., Hamada, H., Wakabayashi, M., Yao, A., Wang, Q., Kosami, K., Dang, T.T., Kaneko-Kawano, T., Shimamoto, K., Kawano, Y The Small GTPase OsRac1 forms two distinct immune receptor complexes containing the PRR OsCERK1 and the NLR Pit Plant Cell Physiol<\/strong>. 2021 62(11):1662-1675<\/p>\n Fukada F, R\u00f6ssel N, M\u00fcnch K, Glatter T, Kahmann R. A small Ustilago maydis effector acts as a novel adhesin for hyphal aggregation in plant tumors. New Phytol<\/strong> 2021 231(1):416-431.<\/p>\n Jing, Z., Wacera, W F., Takami, T., Takanashi, H., Fukada, F., Kawano, Y., Kajiya-Kanegae, H., Iwata, H., Tsutsumi, N., Sakamoto, W. NB-LRR-encoding genes conferring susceptibility to organophosphate pesticides in sorghum. Sci Rep.<\/strong> 2021 11(1):1982<\/p>\n Wang. P. #, Yao, S. #, Kosami, K., Zhang, Y., Fukao, Y., Zhang, H., She, Y.M., Hanada, K., Liu, R.*, and Kawano, Y.*Identification of endogenous small peptides involved in rice immunity through transcriptomics- and proteomics-based screening. Plant Biotech J<\/strong> 20120 doi: 10.1111\/pbi.13208<\/p>\n Fukada F, Kodama S, Nishiuchi T, Kajikawa N, Kubo Y. Plant pathogenic fungi Colletotrichum and Magnaporthe share a common G1 phase monitoring strategy for proper appressorium development. New Phytol<\/strong>\u00a02019 222(4):1909-1923<\/p>\n Tanaka S, Schweizer G, R\u00f6ssel N, Fukada F, Thines M, Kahmann R.Neofunctionalization of the secreted Tin2 effector in the fungal pathogen Ustilago maydis. Nat Microbiol<\/strong>\u00a02019 Feb;4(2):251-257<\/p>\n Wang, Q. #, Li, L. #, Ishikawa, K., Kosami, K., Uno, K., Nagawa, S., Tan, L., Du, J., Shimamoto, K., and Kawano, Y. Resistance protein Pit interacts with the GEF OsSPK1 to activate OsRac1 and trigger rice immunity. PNAS<\/strong> 115(49):E11551-E11560 Xie Y., Zhang Y., Han J., Luo J., Li G., Huang J., Wu H., Tian Q., Zhu Q., Chen Y., Kawano, Y, Liu Y.-G., and Chen L. (2018) The Intronic cis-Element SE1 Recruits trans- acting Repressor Complexes to Repress the Expression of ELONGATED UPPERMOST INTERNODE1 in Rice. Mol Plant<\/strong>\u00a0doi: 10.1016\/j.molp.2018.03.001.<\/p>\n Wong, HL.#, Akamatsu, A.#, Wang, Q.#, Higuchi, M., Matsuda, T., Okuda, J., Kosami, K., Inada, N., Kawasaki, T., Nagawa, S., Tan, L., Kawano, Y. (corresponding author), Shimamoto, K. (2018) In vivo monitoring of plant small GTPase activation using a F\u00f6rster resonance energy transfer biosensor Plant Methods<\/strong> 14:56 Nagano,M., Ishikawa, T., Fujiwara, M., Fukao, Y., Kawano, Y., Kawai-Yamada, M., and Shimamoto, K. (2016) Plasma membrane microdomains are essential for OsRac1-OsRbohB\/H-mediated immunity in rice. Plant Cell<\/strong> 28:1966-83<\/p>\n Akamatsu, A., Shimamoto, K., and Kawano, Y. (2016) Crosstalk of Signaling Mechanisms Involved in Host Defense and Symbiosis against Microorganisms in Rice. Curr Genomic<\/strong> 17:1-17 Akamatsu, A., Uno, K., Kato, M., Wong, HL., Shimamoto, K., and Kawano, Y. (2015) New insights into the dimerization of small GTPase Rac\/ROP guanine nucleotide exchange factors in rice. Plant Signal Behav<\/strong> 10:e1044702<\/p>\n Liu, L., Park, CH., He, F., Nagano, M., Wang, M., Bellizzi, M., Zeng, X., Liu, W., Ning, Y., Kawano, Y., and Wang, GL. (2015) The RhoGAP SPIN6 Associates with SPL11 and OsRac1 and Negatively Regulates Programmed Cell Death and Innate Immunity in Rice. PLoS Pathog<\/strong> 11:e1004629. Fukada F, Kubo Y. Colletotrichum orbiculare Regulates Cell Cycle G1\/S Progression via a Two-Component GAP and a GTPase to Establish Plant Infection. Plant Cell<\/strong> 2015 27(9):2530-44<\/p>\n Kawano, Y. (Corresponding author), Fujiwara, T., Yao, A., Housen, Y., Hayashi, K., and Shimamoto, K. (2014) Palmitoylation-dependent membrane localization of the rice R protein Pit is critical for the activation of the small GTPase OsRac1. J Biol Chem<\/strong> 289:19079-88<\/p>\n Kawano, Y. (Corresponding author), Kawano-Kaneko, T., and Shimamoto, K. (2014) Rho family GTPase-dependent immunity in plants and animals. Front. Plant Sci<\/strong> 5:522<\/p>\n Cesari, S., Kanzaki, H., Fujiwara, T., Bernoux, M., Chalvon, V., Kawano, Y., Shimamoto, K., Dodds, P., Terauchi, R. Kroj, T. (2014) The NB-LRR proteins RGA4 and RGA5 interact functionally and physically to confer disease resistance. EMBO J<\/strong> 33:1941-59<\/p>\n Kosami, K, Ohki, I., Nagano,M., Furuita, K., Sugiki, T., Kawano, Y., Kawasaki,Y., Fujiwara, T., Nakagawa, A., Shimamoto, K., and Kojima, C. (2014) The crystal structure of the plant small GTPase OsRac1 reveals its mode of binding to NADPH oxidase. J Biol Chem<\/strong> 289:28569-78 Sakane, H., Horii, Y, Nogami, S., Kawano, Y., Kaneko-Kawano, T., and Shirataki, H. (2014) \u03b1-Taxilin forms a complex with sorting nexin 4 and participates in the recycling pathway of transferrin receptor. PLoS One<\/strong> 9: e93509<\/p>\n Kawano, Y., and Shimamoto, K. (2013) Early signaling network in rice PRR- and R-mediated immunity. Curr Opin Plant Biol.<\/strong> 16:496-504<\/p>\n Dang, TT. Shimatani, Z., Kawano, Y. (Corresponding author), Terada, R and Shimamoto, K. (2013) Gene editing a constitutively active OsRac1 by homologous recombination-based gene targeting induces immune responses in rice. Plant Cell Physiol<\/strong> 54:2058-2070<\/p>\n Akamatsu, A., Wong, H., Fujiwara, M., Okuda, J., Nishide, K., Uno, K., Imai, K., Umemura, K., Kawasaki, T., <Kawano, Y., and Shimamoto, K. (2013) An OsCEBiP\/OsCERK1-OsRacGEF1-OsRac1 module is an essential component of chitin-induced rice immunity. Cell Host Microbe<\/strong> 13: 465-476<\/p>\n Kim, S. H., Oikawa, T., Kyozuka, J., Wong, H. L., Umemura, K., Kishi-Kaboshi, M., Takahashi, A., Kawano, Y., Kawasaki, T., and Shimamoto, K. (2012) The bHLH Rac immunity1 (RAI1) is activated by OsRac1 via OsMAPK3 and OsMAPK6 in rice immunity. Plant Cell Physiol<\/strong> 53:740-754<\/p>\n Wamaitha, M., Yamamoto, R., Wong, H., Kawasaki, T., Kawano, Y.<\/strong>, and Shimamoto, K. (2012) OsRap2.6 transcription factor contributes to rice innate immunity through its interaction with Receptor for Activated Kinase-C 1 (RACK1). Rice<\/strong> 5:35<\/p>\n Kaneko-Kawano, T., Takasu, F., Naoki, H., Sakumura, Y., Ishii, S., Ueba, T., Eiyama, A., Okada, A., Kawano, Y., and Suzuki, K. (2012) Dynamic regulation of myosin light chain phosphorylation by Rho-kinase. PLoS One<\/strong> 7:e39269<\/p>\n Horii, Y., Nogami, S., Kawano, Y., Kaneko-Kawano, T., Ohtomo, N., Tomiya, T., and Shirataki, H. (2012) Interaction of alpha-taxilin localized on intracellular components with the microtubule cytoskeleton. Cell Struct Funct<\/strong> 37:111-126<\/p>\n Kawano, Y., Akamatsu, A., Hayashi, K., Housen, Y., Okuda, J., Yao, A., Nakashima, A., Takahashi, H., Yoshida, H., Wong, H. L., Kawasaki, T., and Shimamoto, K. (2010a) Activation of a Rac GTPase by the NLR family disease resistance protein Pit plays a critical role in rice innate immunity. Cell Host Microbe<\/strong> 7:362-375<\/p>\n Kawano, Y., Chen, L., and Shimamoto, K. (2010b) The function of Rac small GTPase and associated proteins in rice innate immunity. Rice<\/strong> 3:112-121<\/p>\n Kawasaki T., Imai K., Wong H., Kawano Y., Nishide K., Okuda J., and Shimamoto K.. Rice guanine nucleotide exchange factors for small GTPase OsRac1 involved in innate immunity of rice. In Advances in Genetics, Genomics and Control of Rice Blast Disease.<\/strong> 179-184:2009<\/p>\n Yoshimura, T., Arimura, N., Kawano, Y., Kawabata, S., Wang, S., and Kaibuchi, K. (2006) Ras regulates neuronal polarity via the PI3-kinase\/Akt\/GSK-3beta\/CRMP-2 pathway. Biochem Biophys Res Commun<\/strong> 340:62-68<\/p>\n Kawano, Y., Yoshimura, T., Tsuboi, D., Kawabata, S., Kaneko-Kawano, T., Shirataki, H., Takenawa, T., and Kaibuchi, K. (2005) CRMP-2 is involved in kinesin-1-dependent transport of the Sra-1\/WAVE1 complex and axon formation. Mol Cell Biol<\/strong> 25:9920-9935<\/p>\n Kawano, Y., Kaneko, T., Yoshimura, T., Kawabata, S., and Kaibuchi, K. (2005) RhoA\/C and the Actin Cytoskeleton. RHO Family GTPases<\/strong>:113-136<\/p>\n Yoshimura, T., Kawano, Y., Arimura, N., Kawabata, S., Kikuchi, A., and Kaibuchi, K. (2005) GSK-3beta regulates phosphorylation of CRMP-2 and neuronal polarity. Cell<\/strong> 120:137-149<\/p>\n Arimura, N., Menager, C., Kawano, Y., Yoshimura, T., Kawabata, S., Hattori, A., Fukata, Y., Amano, M., Goshima, Y., Inagaki, M., Morone, N., Usukura, J., and Kaibuchi, K. (2005) Phosphorylation by Rho kinase regulates CRMP-2 activity in growth cones. Mol Cell Biol<\/strong> 25:9973-9984<\/p>\n Kaneko, T., Maeda, A., Takefuji, M., Aoyama, H., Nakayama, M., Kawabata, S., Kawano, Y., Iwamatsu, A., Amano, M., and Kaibuchi, K. (2005) Rho mediates endocytosis of epidermal growth factor receptor through phosphorylation of endophilin A1 by Rho-kinase. Genes Cells<\/strong> 10, 973-98<\/p>\n Kawano, Y., Yoshimura, T., and Kaibuchi, K. (2002) Smooth muscle contraction by small GTPase Rho. Nagoya J Med Sci<\/strong> 65:1-8<\/p>\n Inagaki, N., Chihara, K., Arimura, N., Menager, C., Kawano, Y., Matsuo, N., Nishimura, T., Amano, M., and Kaibuchi, K. (2001) CRMP-2 induces axons in cultured hippocampal neurons. Nat Neurosci<\/strong> 4:781-782<\/p>\n Kandabashi, T., Shimokawa, H., Miyata, K., Kunihiro, I., Kawano, Y., Fukata, Y., Higo, T., Egashira, K., Takahashi, S., Kaibuchi, K., and Takeshita, A. (2000) Inhibition of myosin phosphatase by upregulated rho-kinase plays a key role for coronary artery spasm in a porcine model with interleukin-1beta. Circulation<\/strong> 101:1319-1323<\/p>\n Kawano, Y., Fukata, Y., Oshiro, N., Amano, M., Nakamura, T., Ito, M., Matsumura, F., Inagaki, M., and Kaibuchi, K. (1999) Phosphorylation of myosin-binding subunit (MBS) of myosin phosphatase by Rho-kinase in vivo. J Cell Biol<\/strong> 147, 1023-1038<\/p>\n Fukata, Y., Oshiro, N., Kinoshita, N., Kawano, Y., Matsuoka, Y., Bennett, V., Matsuura, Y., and Kaibuchi, K. (1999) Phosphorylation of adducin by Rho-kinase plays a crucial role in cell motility. J Cell Biol<\/strong> 145:347-361<\/p>\n Yamamoto, T., Harada, N., Kawano, Y., Taya, S., and Kaibuchi, K. (1999) In vivo interaction of AF-6 with activated Ras and ZO-1. Biochem Biophys Res Commun<\/strong> 259:103-107 Taya, S., Yamamoto, T., Kano, K., Kawano, Y., Iwamatsu, A., Tsuchiya, T., Tanaka, K., Kanai-Azuma, M., Wood, S. A., Mattick, J. S., and Kaibuchi, K. (1998) The Ras target AF-6 is a substrate of the fam deubiquitinating enzyme. J Cell Biol<\/strong> 142:1053-1062<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb(\u5206\u62c5) \u4e2d\u56fd\u5168\u571f\u3092\u30ab\u30d0\u30fc\u3059\u308b\u5728\u4e2d\u65e5\u672c\u4eba\u7814\u7a76\u8005\u306e\u4f1a \u5b9f\u9a13\u533b\u5b66, 2018<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb(\u5206\u62c5) \u5728\u4e2d\u65e5\u672c\u4eba\u7814\u7a76\u8005\u306e\u4f1a \u7814\u7a76\u7559\u5b66\u306e\u3059\u309d\u3081! \u301c\u6e21\u822a\u524d\u306e\u6e96\u5099\u304b\u3089\u7559\u5b66\u5f8c\u306e\u30ad\u30e3\u30ea\u30a2\u307e\u3067, 2018<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb(\u5206\u62c5)\u3001\u753a\u7530 \u6cf0\u5247 (\u76e3\u4fee)\u3001 \u5ca1\u7530 \u6e05\u5b5d (\u76e3\u4fee)\u3001 \u5c71\u672c \u8208\u592a\u6717 (\u76e3\u4fee)\u3000\u9ad8\u6821\u751f\u7269\u89e3\u8aac\u66f8 \u6388\u696d\u3067\u305d\u306e\u307e\u307e\u4f7f\u3048\u308bPowerPoint\u4ed8\u304d! \u690d\u7269\u7de8, 2014<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb\u3001\u5cf6\u672c\u3000\u529f: \u690d\u7269\u514d\u75ab\u53d7\u5bb9\u4f53\u306e\u6700\u524d\u7dda\u3000GTP\u7d50\u5408\u30bf\u30f3\u30d1\u30af\u8ceaOsRac1\u3092\u4e2d\u5fc3\u3068\u3057\u3066\u3000\u7d30\u80de\u5de5\u5b66 29(10): 1030-1034, 2010<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb\u3001\u5cf6\u672c\u3000\u529f: \u4f4e\u5206\u5b50\u91cfG\u30bf\u30f3\u30d1\u30af\u8ceaRac\/Rop\u30d5\u30a1\u30df\u30ea\u30fc\u306b\u3088\u308b\u690d\u7269\u514d\u75ab\u306e\u5236\u5fa1\u6a5f\u69cb\u3000\u5171\u7acb\u51fa\u7248, 99-104, 2010<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb\u3001\u8c9d\u6df5\u3000\u5f18\u4e09: \u795e\u7d4c\u7d30\u80de\u306e\u6975\u6027\u3068\u8ef8\u7d22\u5f62\u6210\u3000\u533b\u5b66\u306e\u3042\u3086\u307f\u3000212(10):869-874, 2005<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb\u3001\u5409\u6751\u3000\u6b66\u3001\u8c9d\u6df5\u3000\u5f18\u4e09: \u4f4e\u5206\u5b50\u91cfGTP\u7d50\u5408\u86cb\u767d\u8ceaRho\u3068\u5faa\u74b0\u5668\u75be\u60a3 \u65e5\u672c\u85ac\u7406\u5b66\u96d1\u8a8c\u3000120(3):149-158, 2002<\/p>\n \u6cb3\u91ce\u3000\u6d0b\u6cbb\u3001\u6df1\u7530\u3000\u512a\u5b50\u3001\u8c9d\u6df5\u3000\u5f18\u4e09\uff1a\u4f4e\u5206\u5b50\u91cfGTP\u7d50\u5408\u86cb\u767d\u8ceaRho\u306b\u3088\u308b\u8840\u7ba1\u5e73\u6ed1\u7b4b\u306e\u53ce\u7e2e\u6a5f\u69cb\u3000\u5b9f\u9a13\u533b\u5b66 5: 58-64, 2000<\/p>\n \u671d\u65e5\u65b0\u805e\u3000\u3000\u3000\u5e73\u621030\u5e74 12\u670831\u65e5\uff08\u671d\uff09\u63b2\u8f09 2025 Kou Y, Kawano Y. The OsATG8-OsATG1-SPIN6 module: Linking nutrient sensing to OsRac1-mediated rice immunit […]<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_locale":"ja","_original_post":"27","vkexunit_cta_each_option":"","footnotes":""},"jetpack_sharing_enabled":true,"_links":{"self":[{"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/pages\/27"}],"collection":[{"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=27"}],"version-history":[{"count":26,"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/pages\/27\/revisions"}],"predecessor-version":[{"id":549,"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=\/wp\/v2\/pages\/27\/revisions\/549"}],"wp:attachment":[{"href":"https:\/\/www.rib.okayama-u.ac.jp\/plant_design\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=27"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}2024<\/h4>\n
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\nSelected in Tenth Anniversary PLOS Pathogens Collection<\/p>\n2014<\/h4>\n
\nSelected as a cover photo of JBC<\/p>\n2013<\/h4>\n
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\n\u5948\u826f\u65b0\u805e\u3000\u3000\u3000\u5e73\u621025\u5e74 4\u670818\u65e5\uff08\u671d\uff09\u63b2\u8f09\u3000\u514d\u75ab\u30b9\u30a4\u30c3\u30c1\uff13\u5206\u3067ON
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