Selected publications since 2008 (*corresponding author)

2023

  • Dacheng Wang, Lirong Wei, Ting Liu, Jinbiao Ma, Keyi Huang, Huimin Guo, Yufen Huang, Lei Zhang, Jing Zhao, Kenichi Tsuda, Yiming Wang * , Suppression of ETI by PTI priming to balance plant growth and defense through an MPK3/MPK6-WRKYs-PP2Cs module, Molecular Plant, (2023), https://doi.org/10.1016/j.molp.2023.04.004

2022

  • Yusuke Saijo * , Shigeyuki Betsuyaku, Masatsugu Toyota, Kenichi Tsuda, A continuous extension of plant biotic interactions research. Plant and Cell Physiology,(2022), https://doi.org/10.1093/pcp/pcac132

    Masahito Nakano, Natsuki Omae, Kenichi Tsuda * , Inter-organismal phytohormone networks in plant-microbe interactions. Current Opinion in Plant Biology, (2022), https://doi.org/10.1016/j.pbi.2022.102258

    Jeanne M. Harris, Jacqueline Bede, Kenichi Tsuda, Focus on the role of the abiotic environment on interactions between plants and microbes. MPMI,(2022), https://doi.org/10.1094/MPMI-04-22-0099-FI

    Tatsuya Nobori, Yu Cao, Frederickson Entila, Eik Dahms, Yayoi Tsuda, Ruben Garrido-Oter, Kenichi Tsuda * Dissecting the cotranscriptome landscape of plants and their microbiota. EMBO reports,(2022),https://www.embopress.org/doi/full/10.15252/embr.202255380

    Shiji Hou,Kenichi Tsuda * Salicylic acid and jasmonic acid crosstalk in plant immunity.Essays Biochem,(2022),https://doi.org/10.1042/EBC20210090

    Saroopa P. Samaradivakara,Huan Chen,Yi-Ju Lu,Pai Li,Yongsig Kim,Kenichi Tsuda,Akira Mine,Brad Day. Overexpression of NDR1 leads to pathogen resistance at elevated temperatures. New Phytologist,(2022),https://nph.onlinelibrary.wiley.com/doi/10.1111/nph.18190,https://doi.org/10.1111/nph.18190

    Xiaowei Han and Kenichi Tsuda * Evolutionary footprint of plant immunity. Current Opinion in Plant Biology,(2022),https://authors.elsevier.com/a/1evmh4tPF3q9J-,https://doi.org/10.1016/j.pbi.2022.102209

    Natsuki Omae and Kenichi Tsuda * Plant-Microbiota Interactions in Abiotic Stress Environments. MPMI,(2022),https://doi.org/10.1094/MPMI-11-21-0281-FI

    Kenichi Tsuda * :Editorial Feature: Meet the PCP Editor – Kenichi Tsuda. Plant and Cell Physiology,(2022),https://academic.oup.com/pcp/advance-article/doi/10.1093/pcp/pcab151/6406604,https://doi.org/10.1093/pcp/pcab151

2021

  • Hou, S., Thiergart, T., Vannier, N. et al. A microbiota–root–shoot circuit favours Arabidopsis growth over defence under suboptimal light. Nature Plants,(2021),https://doi.org/10.1038/s41477-021-00956-4
  • Hou, S., Wolinska KW, Hacquard S. Microbiota-root-shoot-environment axis and stress tolerance in plants. Curr Opin Plant Biol,(2021),https://doi.org/10.1016/j.pbi.2021.102028.
  • Chika Takemura, Wakana Senuma, Kazusa Hayashi, Ayaka Minami, Yuki Terazawa, Chisaki Kaneoka, Megumi Sakata, Min Chen, Yong Zhang, Tatsuya Nobori, Masanao Sato, Akinori Kiba, Kouhei Ohnishi, Kenichi Tsuda, Kenji Kai, Yasufumi Hikichi:PhcQ mainly contributes to the regulation of quorum sensing-dependent genes, in which PhcR is partially involved, in Ralstonia pseudosolanacearum strain OE1-1. Molecular Plant Pathology,(2021),https://doi.org/10.1111/mpp.13124
  • Zhengnan Jia, Miaomiao Ding, Masahito Nakano, Kunqi Hong, Ruidong Huang, Dieter Becker, Jane Glazebrook, Fumiaki Katagiri, Xiaowei Han, Kenichi Tsuda*:DNA Purification-free PCR from Plant Tissue. Plant and Cell Physiology,(2021),https://academic.oup.com/pcp/advance-article/doi/10.1093/pcp/pcab120/6329614?guestAccessKey=7dcf3861-e498-41b5-b724-7d198c259285
  • Tatsuya Nobori, Yu Cao, Frederickson Entila, Eik Dahms, Yayoi Tsuda, Ruben Garrido-Oter, Kenichi Tsuda*: Dissecting the co-transcriptome landscape of plants and microbiota. bioRxiv,(2021),https://www.biorxiv.org/content/10.1101/2021.04.25.440543v1
  • Peng Yu, Xiaoming He, Marcel Baer, Stien Beirinckx, Tian Tian, Yudelsy A. T. Moya, Xuechen Zhang, Marion Deichmann, Felix P. Frey, Verena Bresgen, Chunjian Li, Bahar S. Razavi, Gabriel Schaaf, Nicolaus von Wirén, Zhen Su, Marcel Bucher, Kenichi Tsuda, Sofie Goormachtig, Xinping Chen* & Frank Hochholdinger*: Plant flavones enrich rhizosphere Oxalobacteraceae to improve maize performance under nitrogen deprivation. Nature Plants,(2021),https://www.nature.com/articles/s41477-021-00897-y#Abs1
  • Thomas M Winkelmüller, Frederickson Entila, Shajahan Anver, Anna Piasecka, Baoxing Song, Eik Dahms, Hitoshi Sakakibara, Xiangchao Gan, Karolina Kułak, Aneta Sawikowska, Paweł Krajewski, Miltos Tsiantis, Ruben Garrido-Oter, Kenji Fukushima, Paul Schulze-Lefert, Stefan Laurent, Paweł Bednarek, Kenichi Tsuda*:Gene expression evolution in pattern-triggered immunity within Arabidopsis thaliana and across Brassicaceae species. Plant Cell,(2021),https://academic.oup.com/plcell/advance-article/doi/10.1093/plcell/koab073/6159620?searchresult=1
  • Lu Y, Tsuda K*: Intimate association of PRR- and NLR-mediated signaling in plant immunity. Molecular Plant-Microbe Interactions,(2021) , https://apsjournals.apsnet.org/doi/10.1094/MPMI-08-20-0239-IA

2020

  • Nobori T, Wang Y, Wu J, Christina Stolze S, Tsuda T, Finkemeier I, Nakagami H, Tsuda K*: Multidimensional gene regulatory landscape of a bacterial pathogen in plants. Nature Plants, 6: 883-896 (2020)

2019

  • Wang Y, Garrido-Oter R, Wu J, Winkelmuller TM, Agler M, Colby T, Nobori T, Kemen E, Tsuda K*: Site-specific cleavage of bacterial MucD by secreted proteases mediates antibacterial resistance in Arabidopsis. Nature Communications, 10: 2853 (2019) Recommended by F1000
  • Nobori T, Tsuda K*: The plant immune system in heterogeneous environments. Current Opinion in Plant Biology, 50: 58-66 (2019)
  • Adachi H, Tsuda K*: Convergence of cell-surface and intracellular immune receptor signalling. New Phytologist, 221: 1676-1678 (2019)
  • Uemura T, Nakano RT, Takagi J, Wang Y, Kramer K, Finkemeier I, Nakagami H, Tsuda K, Ueda T, Schulze-Lefert P, Nakano A: A Golgi-released subpopulation of the trans-Golgi network mediates constitutive and pathogen-inducible protein secretion in Arabidopsis. Plant Physiology, 179: 519-532 (2019)
  • Berens ML, Wolinska KW, Spaepen S, Ziegler J, Nobori T, Nair A, Krüler V, Winkelmüller TM, Wang Y, Mine A, Becker D, Garido-Oter R, Schulze-Lefert P*, Tsuda K*: Balancing trade-offs between biotic and abiotic stress responses through leaf age-dependent variation in stress hormone crosstalk. Proceedings of the National Academy of Sciences USA, 116: 2364-2373 (2019)
  • Han X, Altegoer F, Steinchen W, Schuhmacher J, Glatter T, Giammarinaro P, Djamei A, Rensing S, Reissmann S, Kahmann R* and Bange G*: A kiwellin disarms the metabolic activity of a secreted fungal virulence factor. Nature, 565: 650-653 (2019) This was featured in Nature News & Views and recommended by F1000
  • Han X and Kahmann R*: Manipulation of phytohormone pathways by effectors of filamentous plant pathogens. Front Plant Sci, 10: 822 (2019)

2018

  • Wang Y, Schuck S, Wu J, Yang P, Döring AC, Zeier J*, Tsuda K*: A MPK3/6-WRKY33-ALD1-Pipecolic acid Regulatory Loop Contributes to Systemic Acquired Resistance. Plant Cell, 10: 2480-2494 (2018) Highlighted in Castroverde Plant Cell, 10: 2238-2239 (2018)
  • Nobori T, Tsuda K*: In planta Transcriptome Analysis of Pseudomonas syringae. Bio-protocol, 8: 2987 (2018)
  • Mine A, Seyfferth C, Kracher B, Berens ML, Becker D, Tsuda K*: The Defense Phytohormone Signaling Network Enables Rapid, High-amplitude Transcriptional Reprogramming During Effector-Triggered Immunity. Plant Cell, 30: 1199-1219 (2018)
  • Nobori T, Mine A, Tsuda K*: Molecular networks in plant-pathogen holobiont. FEBS Letters, 592: 1937-1953 (2018)
  • Nobori T, Velásquez AC, Wu J, Kvitko BH, Kremer JM, Wang Y, He SY*, Tsuda K*: Transcriptome landscape of a bacterial pathogen under plant immunity. Proceedings of the National Academy of Sciences USA,115: E3055-E3064 (2018) Spotlighted in Cohen et al Trends Plant Sci, 23: 751-753 (2018)
  • Jacob F, Kracher B, Mine A, Seyfferth C, Blanvillain-Baufume S, Parker JE, Tsuda K, Schulze-Lefert P, Maekawa T: A dominant-interfering camta3 mutation compromises primary transcriptional outputs mediated by both cell surface and intracellular immune receptors in Arabidopsis thaliana. New Phytologist, 217: 1667-1680 (2018)
  • Tsuda K*: Division of Tasks: Defense by the Spatial Separation of Antagonistic Hormone Activities. Plant and Cell Physiology, 59: 3-4 (2018)

2017

  • Huot B, Castroverde CDM, Velásquez AC, Hubbard E, Pulman JA, Yao J, Childs KL, Tsuda K, Montgomery BL, He SY: Dual impact of elevated temperature on plant defence and bacterial virulence in Arabidopsis. Nature Communications, 8: 1808 (2017)
  • Berens ML, Berry HM, Mine A, Argueso CT, Tsuda K*: Evolution of Hormone Signaling Networks in Plant Defense. Annual Review of Phytopathology, 55: 401-425 (2017)
  • Mine A, Berens ML, Nobori T, Anver S, Fukumoto K, Winkelmüller TM, Takeda A, Becker D, Tsuda K*: Pathogen exploitation of an abscisic acid- and jasmonate-inducible MAPK phosphatase and its interception by Arabidopsis immunity. Proceedings of the National Academy of Sciences USA, 114: 7456-7461 (2017)
  • Shigenaga AM, Berens ML, Tsuda K*, Argueso CT*: Towards Engineering of Hormonal Crosstalk in Plant Immunity. Current Opinion in Plant Biology, 38: 164-172 (2017)
  • Hillmer R, Tsuda K, Rallapalli G, Asai S, Truman W, Papke MD, Sakakibara H, Jone JDG, Myers CL, Katagiri F: The Highly Buffered Arabidopsis Immune Signaling Network Conceals the Functions of its Components. PLoS Genetics, 13: e1006639 (2017) Featured in Brett MTyler. PLoS Genetics 13: e1006713 (2017)
  • Mine A, Nobori T†, Salazar-Rondon MC†, Winkelmüller TM, Anver S, Becker D, Tsuda K*: An incoherent feed-forward loop mediates robustness and tunability in a plant immune network. EMBO Reports, 18: 464-476 (2017)

2016

  • Yamada K, Yamaguchi K, Shirakawa T, Nakagami H, Mine A, Ishikawa K, Fujiwara M, Narusaka M, Narusaka Y, Ichimura K, Kobayashi Y, Matsui H, Nomura Y, Nomoto M, Tada Y, Fukao Y, Fukamizo T, Tsuda K, Shirasu K, Shibuya N, Kawasaki T: The CERK1-associated kinase PBL27 mediates chitin-triggered MAPK activation in Arabidopsis. The EMBO Journal, 35: 2468-2483 (2016)
  • Stuttmann J, Peine N, Garcia AV, Wagner C, Choudhury SR, Wang Y, James GV, Griebel T, Alcazar R, Tsuda K, Schneeberger K, Parker JE: Arabidopsis thaliana DM2h (R8) within the Landsberg RPP1-like Resistance Locus Underlies Three Different Cases of EDS1-Conditioned Autoimmunity. PLoS Genetics, 12: e1005990 (2016)
  • Wang Y, Wu J, Kim SG, Tsuda K, Gupta R, Park SY, Kim ST, Kang KY: Magnaporthe oryzae-Secreted Protein MSP1 Induces Cell Death and Elicits Defense Responses in Rice. Molecular Plant-Microbe Interactions, 29: 299-312 (2016)
  • Yamada K, Yamashita-Yamada M, Hirase T, Fujiwara T, Tsuda K, Hiruma K, Saijo Y: Danger peptide receptor signaling in plants ensures basal immunity upon pathogen-induced depletion of BAK1. The EMBO Journal, 35: 46-61 (2016)

2015

  • Sreekanta S, Bethke G, Hatsugai N, Tsuda K, Thao A, Wang L, Katagiri F, Glazebrook J: The Receptor-Like Cytoplasmic Kinase PCRK1 Contributes to Pattern-Triggered Immunity against Pseudomonas syringae in Arabidopsis thaliana. New Phytologist, 207: 78-90 (2015)
  • Cui H, Tsuda K, Parker JE: Effector-Triggered Immunity: From Pathogen Perception to Robust Defense. Annual Review of Plant Biology, 66: 487-511 (2015)
  • Mateos JL, Madrigal P, Tsuda K, Richter R, Rawat V, Romera-Branchat M, Fornara F, Schneeberger K, Krajewski P, Coupland G: Decoded combinatorial activities of SHORT VEGETATIVE PHASE and FLOWERING LOCUS C define distinct modes of flowering regulation in Arabidopsis. Genome Biology, 16: 31 (2015)
  • Tsuda K*, Somssich IE*: Transcriptional networks in plant immunity. New Phytologist, 206: 932-947 (2015)
  • Anver S, Tsuda K*: Ethylene and Plant Immunity. In Ethylene in Plants. Ed.: Chi-Kuang Wen. Springer Science+Business Media, Dordrecht Heidelberg New York London, 205-221 (2015)

2014

  • Seyfferth C, Tsuda K*: Salicylic acid signal transduction: the initiation of biosynthesis, perception and transcriptional reprogramming. Frontiers in Plant Science, 5: 697 (2014)
  • Mine A, Sato M, Tsuda K*: Toward a systems understanding of plant--microbe interactions. Frontiers in Plant Science, 5: 423 (2014)
  • Kim Y, Tsuda K, Igarashi D, Hillmer RA, Sakakibara H, Myers CL, Katagiri F: Mechanisms underlying robustness and tunability in a plant immune signaling network. Cell Host & Microbe, 15: 84-94 (2014)
  • Ross A, Yamada K, Hiruma K, Yamashita-Yamada M, Lu Xunli, Takano Y, Tsuda K, Saijo Y: The Arabidopsis PEPR pathway couples local and systemic plant immunity. The EMBO Journal, 33: 62-75 (2014)

2013

  • Tsuda K*, Mine A, Bethke G, Igarashi D, Botanga CJ, Tsuda Y, Glazebrook J, Sato M, Katagiri F: Dual regulation of gene expression mediated by extended MAPK activation and salicylic acid contributes to robust innate immunity in Arabidopsis thaliana. PLoS Genetics, 9: e1004015 (2013)
  • Truman W, Sreekanta S, Lu Y, Bethke G, Tsuda K, Katagiri F, Glazebrook J: The Calmodulin Binding Protein 60 Family Includes Both Negative and Positive Regulators of Plant Immunity. Plant Physiology, 163: 1741-1751 (2013)
  • Heidrich K, Tsuda K, Blanvillain-Baufumé S, Wirthmueller L, Bautor J, Parker JE: Arabidopsis TNL-WRKY domain receptor RRS1 contributes to temperature-conditioned RPS4 auto-immunity. Frontiers in Plant Science, 4: 403 (2013)
  • Tintor N, Ross A, Kanehara K, Yamada K, Fan L, Kemmerling B, Nurnberger T, Tsuda K, Saijo Y: Layered pattern receptor signaling via ethylene and endogenous elicitor peptides during Arabidopsis immunity to bacterial infection. Proceedings of the National Academy of Sciences USA, 110: 6211-6216 (2013)
  • Igarashi D, Bethke G, Xu Y, Tsuda K, Glazebrook J, Katagiri F: Pattern-Triggered Immunity Suppresses Programmed Cell Death Triggered by Fumonisin B1. PLoS One, 8: e60769 (2013)

2012

  • Igarashi D, Tsuda K, Katagiri F: The Peptide Growth Factor, Phytosulfokine, Attenuates Pattern-Triggered Immunity. The Plant Journal, 71: 194-204 (2012)
  • Bethke G, Pecher P, Eschen-Lippold L, Tsuda K, Katagiri F, Glazebrook J, Scheel D, Lee J: Activation of the Arabidopsis thaliana mitogen-activated protein kinase MPK11 by the flagellin-derived elicitor peptide, flg22. Molecular Plant-Microbe Interactions, 25: 471-480 (2012)
  • Tsuda K, Qi Y, Nguyen LV, Bethke G, Tsuda Y, Glazebrook J, Katagiri F: An efficient Agrobacterium-mediated transient transformation of Arabidopsis. The Plant Journal, 69: 713-719 (2012) Recommended by F1000

2011 and earlier

  • Willmann R, Lajunena HM, Erbsb G, Newman M, Kolb D, Tsuda K, Katagiri F, Fliegmann J, Bono J, Cullimore JV, Jehle AK, Gotz F, Kulikh A, Molinaroi A, Lipka V, Gust AA, Nurnberger T: The Arabidopsis LYM1 LYM3 CERK1 pattern recognition system mediates bacterial peptidoglycan sensing and immunity to bacterial infection. Proceedings of the National Academy of Sciences USA, 108: 19824-19829 (2011)
  • Qi Y, Tsuda K, Nguyen LV, Wang X, Lin J, Murphy AS, Glazebrook J, Thordal-Christensen H, Katagiri F: Physical association of Arabidopsis hypersensitive induced reaction proteins (HIRs) with the immune receptor RPS2. Journal of Biological Chemistry, 286: 31297-31307 (2011)
  • Wang L, Tsuda K, Truman W, Sato M, Nguyen LV, Katagiri F, Glazebrook J: CBP60g and SARD1 play partially redundant, critical roles in salicylic acid signaling. The Plant Journal, 67: 1029-1041 (2011) Qi Y, Tsuda K, Glazebrook J, Katagiri F: Physical association of PTI and ETI immune receptors in Arabidopsis. Molecular Plant Pathology, 12: 702-708 (2011)
  • Wen Y, Wang W, Feng J, Luo MC, Tsuda K, Katagiri F, Bauchan G, Xiao S: Identification and utilization of a sow thistle powdery mildew as a nonhost pathogen to dissect post-invasion resistance mechanisms in Arabidopsis. Journal of Experimental Botany, 62: 2117-2129 (2011)
  • Katagiri F, Tsuda K: Understanding the plant immune system. Molecular Plant-Microbe Interactions, 23: 1531-1536 (2010)
  • Qi Y, Tsuda K, Joe A, Sato M, Nguyen LV, Glazebrook J, Alfano JR, Cohen JD, Katagiri F: A putative RNA-binding protein positively regulates salicylic acid-mediated immunity in Arabidopsis. Molecular Plant-Microbe Interactions, 23: 1573-1583 (2010)
  • Tsuda K, Katagiri F: Comparing signaling mechanisms engaged in pattern-triggered and effector-triggered immunity. Current Opinion in Plant Biology, 13: 459-465 (2010)
  • Sato M, Tsuda K, Wang L, Coller J, Watanabe Y, Glazebrook J, Katagiri F: Network modeling reveals prevalent negative regulatory relationships between signaling sectors in Arabidopsis immune signaling. PLoS Pathogens, 6: e1001011 (2010)
  • Tsuda K, Sato M, Stoddard T, Glazebrook J, Katagiri F: Network properties of robust immunity in plants. PLoS Genetics, 5: e1000772 (2009)
  • Wang L, Tsuda K, Sato M, Cohen JD, Katagiri F, Glazebrook J: Arabidopsis CaM binding protein CBP60g contributes to MAMP-induced SA accumulation and is involved in disease resistance against Pseudomonas syringae. PLoS Pathogens, 5: e1000301 (2009)
  • Tsuda K, Sato M, Glazebrook J, Cohen JD, Katagiri F: Interplay between MAMP-triggered and SA-mediated defense responses. The Plant Journal, 53: 763-775 (2008)
Address
Plant Innate Immunity laboratory
State Key Laboratory of Agricultural Microbiology
Interdisciplinary Sciences Research Institute
Department of Plant Pathology
College of Plant Science and Technology
Huazhong Agricultural University
No.1 Shizishan Road, Hongshan
Wuhan, Hubei, 430070
China

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