2024/12/20 更新

写真a

サカタ ナナミ
坂田 七海
Sakata Nanami
所属
環境生命自然科学学域 助教(特任)
職名
助教(特任)

学位

  • 博士(農学) ( 2022年3月   筑波大学 )

学歴

  • 筑波大学    

    2020年4月 - 2022年3月

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  • 筑波大学    

    2019年4月 - 2020年3月

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経歴

  • 岡山大学   助教(特任)(WTT)

    2024年4月 - 現在

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  • Huazhong Agricultural University   日本学術振興会海外特別研究員

    2023年6月 - 2024年3月

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  • 筑波大学   研究員

    2023年4月 - 2023年5月

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  • 筑波大学   日本学術振興会特別研究員(PD)

    2022年4月 - 2023年3月

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  • 筑波大学   日本学術振興会特別研究員(DC2)

    2021年4月 - 2022年3月

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論文

  • LysR-Type Transcriptional Regulator Contributes to Pseudomonas cannabina pv. alisalensis Virulence by Regulating Type Three Secretion System

    Kanon Yamamoto, Takashi Fujikawa, Ayaka Uke, Giyu Usuki, Yasuhiro Ishiga, Nanami Sakata

    Bacteria   2024年12月

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    掲載種別:研究論文(学術雑誌)  

    DOI: 10.3390/bacteria3040033

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  • Comparative Analysis of Infection Strategies of Pseudomonas cannabina pv. alisalensis and P. syringae pv. tomato in Different Host Plants

    Nanami Sakata, Giyu Usuki, Kanon Yamamoto, Yasuhiro Ishiga

    Bacteria   2024年11月

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    掲載種別:研究論文(学術雑誌)  

    DOI: 10.3390/bacteria3040026

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  • Flagellar motility of Pseudomonas syringae pv. actinidiae biovar 3 contributes to bacterial infection through stomata 査読

    Giyu Usuki, Takako Ishiga, Nanami Sakata, Yasuhiro Ishiga

    Journal of General Plant Pathology   90 ( 3 )   144 - 150   2024年4月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-024-01172-6

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    その他リンク: https://link.springer.com/article/10.1007/s10327-024-01172-6/fulltext.html

  • Plant responses induced by Adoxophyes honmai oviposition in host tea plants and non-host Arabidopsis thaliana 査読

    Suguru Komatsuzaki, Nanami Sakata, Giyu Usuki, Yasuhiro Ishiga, Yooichi Kainoh

    Phytoparasitica   52 ( 1 )   2023年12月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s12600-023-01117-3

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    その他リンク: https://link.springer.com/article/10.1007/s12600-023-01117-3/fulltext.html

  • Vt35 antitoxin plays a central regulatory role in virulence of Pseudomonas savastanoi pv. glycinea on soybean 査読

    Viet Tru Nguyen, Nanami Sakata, Takako Ishiga, Giyu Usuki, Yoshiteru Hashimoto, Yasuhiro Ishiga

    Journal of General Plant Pathology   89 ( 4 )   211 - 218   2023年4月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-023-01124-6

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    その他リンク: https://link.springer.com/article/10.1007/s10327-023-01124-6/fulltext.html

  • HexR Transcription Factor Contributes to Pseudomonas cannabina pv. alisalensis Virulence by Coordinating Type Three Secretion System Genes. 査読 国際誌

    Nanami Sakata, Takashi Fujikawa, Ayaka Uke, Takako Ishiga, Yuki Ichinose, Yasuhiro Ishiga

    Microorganisms   11 ( 4 )   2023年4月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Pseudomonas cannabina pv. alisalensis (Pcal) causes bacterial blight on cabbage. We previously conducted a screening for reduced virulence using Tn5 transposon mutants and identified one of the transcriptional factors, HexR, as a potential Pcal virulence factor. However, the role of HexR in plant pathogenic Pseudomonas virulence has not been investigated well. Here, we demonstrated that the Pcal hexR mutant showed reduced disease symptoms and bacterial populations on cabbage, indicating that HexR contributes to Pcal virulence. We used RNA-seq analysis to characterize the genes regulated by HexR. We found that several type three secretion system (T3SS)-related genes had lower expression of the Pcal hexR mutant. Five genes were related to T3SS machinery, two genes were related to type three helper proteins, and three genes encoded type three effectors (T3Es). We also confirmed that T3SS-related genes, including hrpL, avrPto, hopM1, and avrE1, were also down-regulated in the Pcal hexR mutant both in culture and in vivo by using RT-qPCR. T3SS functions to suppress plant defense in host plants and induce hypersensitive response (HR) cell death in non-host plants. Therefore, we investigated the expression profiles of cabbage defense-related genes, including PR1 and PR5, and found that the expressions of these genes were greater in the Pcal hexR mutant. We also demonstrated that the hexR mutant did not induce HR cell death in non-host plants, indicating that HexR contributes in causing HR in nonhost plants. Together, these results indicate that the mutation in hexR leads to a reduction in the T3SS-related gene expression and thus an impairment in plant defense suppression, reducing Pcal virulence.

    DOI: 10.3390/microorganisms11041025

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  • Controlling stomatal aperture, a potential strategy for managing plant bacterial disease. 査読 国際誌

    Nanami Sakata, Taiki Ino, Chinatsu Hayashi, Takako Ishiga, Yasuhiro Ishiga

    Plant science : an international journal of experimental plant biology   327   111534 - 111534   2023年2月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Bacterial blight of crucifers caused by Pseudomonas cannabina pv. alisalensis (Pcal) inflicts great damage on crucifer production. To explore efficient and sustainable strategies for Pcal disease control, we here investigated and screened for amino acids with reduced disease development. We found that exogenous foliar application with multiple amino acids reduced disease symptoms and bacterial populations in cabbage after spray-inoculation, but not syringe-inoculation. These results indicate that these amino acids showed a protective effect before Pcal entered plants. Therefore, we observed stomatal responses, which is a main gateway for Pcal entry into the apoplast, after amino acid treatments. As a results, we found several amino acids induce stomatal closure. Moreover, our findings demonstrated that reducing stomatal aperture width can limit bacterial entry into plants, leading to reduced disease symptoms. Indeed, Cys, Glu, and Lys, which showed a protective effect on cabbage, reduced stomatal aperture width and bacterial entry. Therefore, managing stomatal aperture can be a powerful strategy for controlling bacterial disease.

    DOI: 10.1016/j.plantsci.2022.111534

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  • Prevention of Stomatal Entry as a Strategy for Plant Disease Control against Foliar Pathogenic Pseudomonas Species. 査読 国際誌

    Nanami Sakata, Yasuhiro Ishiga

    Plants (Basel, Switzerland)   12 ( 3 )   2023年1月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    The genus Pseudomonas includes some of the most problematic and studied foliar bacterial pathogens. Generally, in a successful disease cycle there is an initial epiphytic lifestyle on the leaf surface and a subsequent aggressive endophytic stage inside the leaf apoplast. Leaf-associated bacterial pathogens enter intercellular spaces and internal leaf tissues by natural surface opening sites, such as stomata. The stomatal crossing is complex and dynamic, and functional genomic studies have revealed several virulence factors required for plant entry. Currently, treatments with copper-containing compounds, where authorized and admitted, and antibiotics are commonly used against bacterial plant pathogens. However, strains resistant to these chemicals occur in the fields. Therefore, the demand for alternative control strategies has been increasing. This review summarizes efficient strategies to prevent bacterial entry. Virulence factors required for entering the leaf in plant-pathogenic Pseudomonas species are also discussed.

    DOI: 10.3390/plants12030590

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  • Large-Scale Transposon Mutagenesis Reveals Type III Secretion Effector HopR1 Is a Major Virulence Factor in Pseudomonas syringae pv. actinidiae. 査読 国際誌

    Takako Ishiga, Nanami Sakata, Giyu Usuki, Viet Tru Nguyen, Kenji Gomi, Yasuhiro Ishiga

    Plants (Basel, Switzerland)   12 ( 1 )   2022年12月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Bacterial canker of kiwifruit caused by Pseudomonas syringae pv. actinidiae (Psa) is a serious threat to kiwifruit production worldwide. Four biovars (Psa biovar 1; Psa1, Psa biovar 3; Psa3, Psa biovar 5; Psa5, and Psa biovar 6; Psa6) were reported in Japan, and virulent Psa3 strains spread rapidly to kiwifruit production areas worldwide. Therefore, there is an urgent need to develop critical management strategies for bacterial canker based on dissecting the dynamic interactions between Psa and kiwifruit. To investigate the molecular mechanism of Psa3 infection, we developed a rapid and reliable high-throughput flood-inoculation method using kiwifruit seedlings. Using this inoculation method, we screened 3000 Psa3 transposon insertion mutants and identified 91 reduced virulence mutants and characterized the transposon insertion sites in these mutants. We identified seven type III secretion system mutants, and four type III secretion effectors mutants including hopR1. Mature kiwifruit leaves spray-inoculated with the hopR1 mutant showed significantly reduced virulence compared to Psa3 wild-type, indicating that HopR1 has a critical role in Psa3 virulence. Deletion mutants of hopR1 in Psa1, Psa3, Psa5, and Psa6 revealed that the type III secretion effector HopR1 is a major virulence factor in these biovars. Moreover, hopR1 mutants of Psa3 failed to reopen stomata on kiwifruit leaves, suggesting that HopR1 facilitates Psa entry through stomata into plants. Furthermore, defense related genes were highly expressed in kiwifruit plants inoculated with hopR1 mutant compared to Psa wild-type, indicating that HopR1 suppresses defense-related genes of kiwifruit. These results suggest that HopR1 universally contributes to virulence in all Psa biovars by overcoming not only stomatal-based defense, but also apoplastic defense.

    DOI: 10.3390/plants12010141

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  • Covering cabbage leaves with cellulose nanofiber confers resistance against Pseudomonas cannabina pv. alisalensis 査読

    Nanami Sakata, Nanami Shiraishi, Haruka Saito, Haruka Komoto, Takako Ishiga, Giyu Usuki, Yuji Yamashita, Yasuhiro Ishiga

    Journal of General Plant Pathology   89 ( 1 )   53 - 60   2022年11月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-022-01105-1

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    その他リンク: https://link.springer.com/article/10.1007/s10327-022-01105-1/fulltext.html

  • Translocation of acibenzolar, an active metabolic substance of acibenzolar-S-methyl, to distal leaves in cabbage and Japanese radish 査読

    Nanami Sakata, Shunsuke Masuo, Rino Nagayoshi, Takako Ishiga, Yasuhiro Ishiga

    Journal of General Plant Pathology   88 ( 6 )   392 - 398   2022年10月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-022-01096-z

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    その他リンク: https://link.springer.com/article/10.1007/s10327-022-01096-z/fulltext.html

  • Pseudomonas cannabina pv. alisalensis Virulence Factors Are Involved in Resistance to Plant-Derived Antimicrobials during Infection. 査読 国際誌

    Nanami Sakata, Takumi Haraguchi, Shunsuke Masuo, Takako Ishiga, Yasuhiro Ishiga

    Plants (Basel, Switzerland)   11 ( 13 )   2022年6月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Bacteria are exposed to and tolerate diverse and potentially toxic compounds in the natural environment. While efflux transporters are generally thought to involve bacterial antibiotic resistance in vitro, their contributions to plant bacterial virulence have so far been poorly understood. Pseudomonas cannabina pv. alisalensis (Pcal) is a causal agent of bacterial blight of Brassicaceae. We here demonstrated that NU19, which is mutated in the resistance-nodulation-cell division (RND) transporter encoded gene, showed reduced virulence on cabbage compared to WT, indicating that the RND transporter contributes to Pcal virulence on cabbage. We also demonstrated that brassinin biosynthesis was induced after Pcal infection. Additionally, the RND transporter was involved in resistance to plant-derived antimicrobials and antibiotics, including the cabbage phytoalexin brassinin. These results suggest that the RND transporter extrudes plant-derived antimicrobials and contributes to Pcal virulence. We also found that the RND transporter contributes to Pcal virulence on Brassicaceae and tomato, but not on oat. These results suggest that the RND transporter contributes to Pcal virulence differentially depending on the host-plant species. Lastly, our expression-profile analysis indicated that the type-three secretion system (TTSS), which is essential for pathogenesis, is also involved in suppressing brassinin biosynthesis. Taken together, our results suggest that several Pcal virulence factors are involved in resistance to plant-derived antimicrobials and bacterial survival during infection.

    DOI: 10.3390/plants11131742

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  • Efficacy of RNA-spray-induced silencing of Phakopsora pachyrhizi chitin synthase genes to control soybean rust 査読

    Haruka Saito, Nanami Sakata, Takako Ishiga, Yasuhiro Ishiga

    Journal of General Plant Pathology   88 ( 3 )   203 - 206   2022年3月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-022-01061-w

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    その他リンク: https://link.springer.com/article/10.1007/s10327-022-01061-w/fulltext.html

  • Acibenzolar-S-methyl efficacy against bacterial brown stripe caused by Acidovorax avenae subsp. avenae in creeping bentgrass 査読

    Nanami Sakata, Taketo Aoyagi, Takako Ishiga, Yasuhiro Ishiga

    Journal of General Plant Pathology   87 ( 6 )   387 - 393   2021年8月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-021-01025-6

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    その他リンク: https://link.springer.com/article/10.1007/s10327-021-01025-6/fulltext.html

  • Coronatine Contributes to Pseudomonas cannabina pv. alisalensis Virulence by Overcoming Both Stomatal and Apoplastic Defenses in Dicot and Monocot Plants. 査読 国際誌

    Nanami Sakata, Takako Ishiga, Shunsuke Masuo, Yoshiteru Hashimoto, Yasuhiro Ishiga

    Molecular plant-microbe interactions : MPMI   34 ( 7 )   746 - 757   2021年7月

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Pseudomonas cannabina pv. alisalensis is a causative agent of bacterial blight of crucifers including cabbage, radish, and broccoli. Importantly, P. cannabina pv. alisalensis can infect not only a wide range of Brassicaceae spp. but, also, green manure crops such as oat. However, P. cannabina pv. alisalensis virulence mechanisms have not been investigated and are not fully understood. We focused on coronatine (COR) function, which is one of the well-known P. syringae pv. tomato DC3000 virulence factors, in P. cannabina pv. alisalensis infection processes on both dicot and monocot plants. Cabbage and oat plants dip-inoculated with a P. cannabina pv. alisalensis KB211 COR mutant (ΔcmaA) exhibited reduced virulence compared with P. cannabina pv. alisalensis wild type (WT). Moreover, ΔcmaA failed to reopen stomata on both cabbage and oat, suggesting that COR facilitates P. cannabina pv. alisalensis entry through stomata into both plants. Furthermore, cabbage and oat plants syringe-infiltrated with ΔcmaA also showed reduced virulence, suggesting that COR is involved in overcoming not only stomatal-based defense but also apoplastic defense. Indeed, defense-related genes, including PR1 and PR2, were highly expressed in plants inoculated with ΔcmaA compared with WT, indicating that COR suppresses defense-related genes of both cabbage and oat. Additionally, salicylic acid accumulation increases after ΔcmaA inoculation compared with WT. Taken together, COR contributes to causing disease by suppressing stomatal-based defense and apoplastic defense in both dicot and monocot plants. Here, we investigated COR functions in the interaction of P. cannabina pv. alisalensis and different host plants (dicot and monocot plants), using genetically and biochemically defined COR deletion mutants.[Formula: see text] The author(s) have dedicated the work to the public domain under the Creative Commons CC0 "No Rights Reserved" license by waiving all of his or her rights to the work worldwide under copyright law, including all related and neighboring rights, to the extent allowed by law, 2021.

    DOI: 10.1094/MPMI-09-20-0261-R

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  • Multiple virulence factors regulated by AlgU contribute to the pathogenicity of Pseudomonas savastanoi pv. glycinea in soybean. 査読 国際誌

    Viet Tru Nguyen, Nanami Sakata, Giyu Usuki, Takako Ishiga, Yoshiteru Hashimoto, Yasuhiro Ishiga

    PeerJ   9   e12405   2021年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Pseudomonas savastanoi pv. glycinea (Psg) causes bacterial blight of soybean. To identify candidate virulence factors, transposon-mediated mutational analysis of Psg was carried out. We syringe-inoculated soybean leaves with Psg transposon mutants and identified 28 mutants which showed reduced virulence from 1,000 mutants screened. Next, we spray-inoculated soybean leaves with these mutants and demonstrated that the algU mutant showed significantly reduced virulence together with reduced bacterial populations in planta. Expression profiles comparison between the Psg wild-type (WT) and algU mutant in HSC broth revealed that expression of coronatine (COR)-related genes (including cmaA and corR) were down-regulated in the algU mutant compared with Psg WT. Moreover, we also showed that COR production were reduced in the algU mutant compared with WT. We also demonstrated that algD, which is related to alginate biosynthesis, showed reduced expression and biofilm formation was significantly suppressed in the algU mutant. Furthermore, hrpL also showed less expression in the algU mutant. These results indicate that AlgU plays a critical role in promoting Psg pathogenesis by regulating multiple virulence factors.

    DOI: 10.7717/peerj.12405

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  • Pseudmonas cannabina pv. alisalensis TrpA Is Required for Virulence in Multiple Host Plants. 査読 国際誌

    Nanami Sakata, Takako Ishiga, Yasuhiro Ishiga

    Frontiers in microbiology   12   659734 - 659734   2021年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Pseudomonas cannabina pv. alisalensis (Pcal) causes bacterial leaf spot and blight of Brassicaceae and Poaceae. We previously identified several potential Pcal virulence factors with transposon mutagenesis. Among these a trpA mutant disrupted the tryptophan synthase alpha chain, and had an effect on disease symptom development and bacterial multiplication. To assess the importance of TrpA in Pcal virulence, we characterized the trpA mutant based on inoculation test and Pcal gene expression profiles. The trpA mutant showed reduced virulence when dip- and syringe-inoculated on cabbage and oat. Moreover, epiphytic bacterial populations of the trpA mutant were also reduced compared to the wild-type (WT). These results suggest that TrpA contributes to bacterial multiplication on the leaf surface and in the apoplast, and disease development. Additionally, several Brassicaceae (including Japanese radish, broccoli, and Chinese cabbage) also exhibited reduced symptom development when inoculated with the trpA mutant. Moreover, trpA disruption led to downregulation of bacterial virulence genes, including type three effectors (T3Es) and the phytotoxin coronatine (COR), and to upregulation of tryptophan biosynthesis genes. These results indicate that a trade-off between virulence factor production and Pcal multiplication with tryptophan might be regulated in the infection processes.

    DOI: 10.3389/fmicb.2021.659734

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  • Covering Soybean Leaves With Cellulose Nanofiber Changes Leaf Surface Hydrophobicity and Confers Resistance Against Phakopsora pachyrhizi. 査読 国際誌

    Haruka Saito, Yuji Yamashita, Nanami Sakata, Takako Ishiga, Nanami Shiraishi, Giyu Usuki, Viet Tru Nguyen, Eiji Yamamura, Yasuhiro Ishiga

    Frontiers in plant science   12   726565 - 726565   2021年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Asian soybean rust (ASR) caused by Phakopsora pachyrhizi, an obligate biotrophic fungal pathogen, is the most devastating soybean production disease worldwide. Currently, timely fungicide application is the only means to control ASR in the field. We investigated cellulose nanofiber (CNF) application on ASR disease management. CNF-treated leaves showed reduced lesion number after P. pachyrhizi inoculation compared to control leaves, indicating that covering soybean leaves with CNF confers P. pachyrhizi resistance. We also demonstrated that formation of P. pachyrhizi appressoria, and also gene expression related to these formations, such as chitin synthases (CHSs), were significantly suppressed in CNF-treated soybean leaves compared to control leaves. Moreover, contact angle measurement revealed that CNF converts soybean leaf surface properties from hydrophobic to hydrophilic. These results suggest that CNF can change soybean leaf surface hydrophobicity, conferring resistance against P. pachyrhizi, based on the reduced expression of CHSs, as well as reduced formation of pre-infection structures. This is the first study to investigate CNF application to control field disease.

    DOI: 10.3389/fpls.2021.726565

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  • Acibenzolar-S-methyl and probenazole activate stomatal-based defense at different times to control bacterial blight of cabbage 査読

    Takako Ishiga, Nanami Sakata, Tsutomu Ugajin, Yasuhiro Ishiga

    Journal of General Plant Pathology   87 ( 1 )   30 - 34   2020年10月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-020-00965-9

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    その他リンク: http://link.springer.com/article/10.1007/s10327-020-00965-9/fulltext.html

  • Acibenzolar-S-Methyl Activates Stomatal-Based Defense Systemically in Japanese Radish. 査読 国際誌

    Nanami Sakata, Takako Ishiga, Shizuku Taniguchi, Yasuhiro Ishiga

    Frontiers in plant science   11   565745 - 565745   2020年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Acibenzolar-S-methyl (ASM) is a well-known plant activator, which is a synthetic analog of salicylic acid (SA). Recently, copper fungicides and antibiotics are major strategies for controlling bacterial diseases. However, resistant strains have already been found. Therefore, there is an increasing demand for sustainable new disease control strategies. We investigated the ASM disease control effect against Pseudomonas cannabina pv. alisalensis (Pcal), which causes bacterial blight on Japanese radish. In this study, we demonstrated that ASM effectively suppressed Pcal disease symptom development associated with reduced bacterial populations on Japanese radish leaves. Interestingly, we also demonstrated that ASM activated systemic acquired resistance (SAR), including stomatal-based defense on ASM-untreated upper and lower leaves. Reactive oxygen species (ROS) are essential second messengers in stomatal-based defense. We found that ASM induced stomatal closure by inducing ROS production through peroxidase. These results indicate that stomatal closure induced by ASM treatment is effective for preventing Pcal pathogen invasion into plants, and in turn reduction of disease development.

    DOI: 10.3389/fpls.2020.565745

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  • Flood inoculation of seedlings on culture medium to study interactions between Pseudomonas syringae pv. actinidiae and kiwifruit. 査読

    Takako Ishiga, Nanami Sakata, Viet Tru Nguyen, Yasuhiro Ishiga

    Journal of general plant pathology : JGPP   86 ( 4 )   257 - 265   2020年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Bacterial canker of kiwifruit caused by Pseudomonas syringae pv. actinidiae (Psa) is a serious threat to kiwifruit production. Highly virulent strains of Psa biovar3 (Psa3) have spread rapidly to kiwifruit production areas worldwide. Therefore, there is an urgent need to develop critical management strategies for bacterial canker based on dissecting the interactions between Psa and kiwifruit. Here, we developed a rapid and reliable flood-inoculation method using kiwifruit seedlings grown on Murashige and Skoog medium. This method has several advantages over inoculation of conventional soil-grown plants. We demonstrated the utility of a kiwifruit seedling assay to study the virulence of Psa biovars and Psa3 virulence factors, including the type III secretion system (T3SS). Kiwifruit seedlings inoculated with Psa3 developed severe necrosis within 1 week, whereas those inoculated with a T3SS-deficient hrcN mutant of Psa3 did not. This method was also useful for analyzing expression profiles of genes involved in Psa3 virulence during infection, and revealed that the expression of genes encoding the T3SS and type III secreted effectors were strongly induced in planta. Our results indicate that the T3SS has an important role in Psa3 virulence, and the flood-inoculation assay using kiwifruit seedling is suitable for analyzing Psa and kiwifruit interactions.

    DOI: 10.1007/s10327-020-00916-4

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  • Acibenzolar-S-methyl activates stomatal-based defense against Pseudomonas cannabina pv. alisalensis in cabbage 査読

    Takako Ishiga, Yumi Iida, Nanami Sakata, Tsutomu Ugajin, Tetsuya Hirata, Shizuku Taniguchi, Keisuke Hayashi, Yasuhiro Ishiga

    Journal of General Plant Pathology   86 ( 1 )   48 - 54   2019年9月

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    掲載種別:研究論文(学術雑誌)   出版者・発行元:Springer Science and Business Media LLC  

    DOI: 10.1007/s10327-019-00883-5

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    その他リンク: http://link.springer.com/article/10.1007/s10327-019-00883-5/fulltext.html

  • Transposon mutagenesis reveals Pseudomonas cannabina pv. alisalensis optimizes its virulence factors for pathogenicity on different hosts. 査読 国際誌

    Nanami Sakata, Takako Ishiga, Haruka Saito, Viet Tru Nguyen, Yasuhiro Ishiga

    PeerJ   7   e7698   2019年

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    記述言語:英語   掲載種別:研究論文(学術雑誌)  

    Pseudomonas cannabina pv. alisalensis (Pcal), which causes bacterial blight disease of Brassicaceae, is an economically important pathogen worldwide. To identify Pcal genes involved in pathogenesis, we conducted a screen for 1,040 individual Pcal KB211 Tn5 mutants with reduced virulence on cabbage plants using a dip-inoculation method. We isolated 53 reduced virulence mutants and identified several potential virulence factors involved in Pcal virulence mechanisms such as the type III secretion system, membrane transporters, transcription factors, and amino acid metabolism. Importantly, Pcal is pathogenic on a range of monocotyledonous and dicotyledonous plants. Therefore, we also carried out the inoculation test on oat plants, which are cultivated after cabbage cultivation as green manure crops. Interestingly among the 53 mutants, 31 mutants also exhibited reduced virulence on oat seedlings, indicating that Pcal optimizes its virulence factors for pathogenicity on different host plants. Our results highlight the importance of revealing the virulence factors for each plant host-bacterial interaction, and will provide new insights into Pcal virulence mechanisms.

    DOI: 10.7717/peerj.7698

    PubMed

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共同研究・競争的資金等の研究

  • アブラナ科植物黒斑細菌病の防除に向けた植物-病原細菌の相互作用の解明

    研究課題/領域番号:21J10765  2021年04月 - 2023年03月

    日本学術振興会  科学研究費助成事業  特別研究員奨励費

    坂田 七海

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    配分額:1500000円 ( 直接経費:1500000円 )

    本研究では、アブラナ科植物黒斑細菌病の防除に向けて、当初の予定通り、課題(1)および課題(2)を通して、植物―病原細菌の相互作用の解明に取り組んだ。
    課題(1)においては、これまで行ってきたPcalの病原力因子のスクリーニング、毒素コロナチンの機能解析、アミノ酸代謝の病原力における役割の解明に加え、トランスポーターの病原力における役割の解明、転写因子HexRの病原力における役割の解明に取り組んだ。多角的に研究を推進する中で、Pcalが植物に侵入する前および侵入する感染過程に多くの病原力を必要としていることが明らかになった。
    課題(2)においては、継続して行ってきた植物抵抗性誘導剤アシベンゾラル S-メチル(ASM)の作用機構の解明に加え、新規な防除資材の探索も行い、セルロースナノファイバー(CNF)および複数のアミノ酸がアブラナ科植物黒斑細菌病の抑制に寄与することを明らかにした。CNFをキャベツ葉に処理することで、葉の表面性質が疎水性から親水性に変わり、細菌の病原力因子関連遺伝子発現が低下することを明らかにした。特に、細菌の運動能に関わるべん毛タンパク質遺伝子の発現が低下し、運動能が低下、その結果植物内への細菌侵入数が減少することが示唆された。また、キャベツ黒斑細菌病防除に資するアミノ酸の探索を行い、多くのアミノ酸が防除効果を発揮することを明らかにした。加えて、その作用機構の一つが、気孔開口幅の減少による細菌侵入数の抑制であることを示した。
    本研究を通して、「病原細菌が植物に侵入する前の感染過程をターゲットとすることは、細菌病防除の有効な防除法になりうる」という一つのメッセ―ジを提言できたと自負している。

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