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研究業績

 論文発表 (*corresponding author)

 

2023

  • Sato A, Inayoshi S, Kitawaki K, Mihara R, Yoneda K, Ito-Inaba Y, Inaba T*. (2024)
    Autophagy is suppressed by low temperatures and is dispensable for cold acclimation in Arabidopsis.

    Physiologia Plantarum, in press, https://doi.org/10.1111/ppl.14409

  • Sato MP*, Matsuo A, Otsuka K, Takenaka Takano K, Maki M, Okano K, Suyama Y, Ito-Inaba Y*. (2023)
    Potential contribution of floral thermogenesis to cold adaptation, distribution pattern, and population structure of thermogenic and non/slightly thermogenic Symplocarpus species.

    Ecology and Evolution, 13:e10319, https://doi.org/10.1002/ece3.10319

  • Koyamatsu D, Otsubo M, Ohira T, Sato MP, Suzuki-Masuko H, Shiota T, Takenaka Takano K, Ozeki M, Otsuka K, Ogura Y, Hayashi T, Watanabe M, Inaba T, Ito-Inaba Y*. (2023)
    Molecular characterization of SrSTP14, a sugar transporter from thermogenic skunk cabbage, and its possible role in developing pollen.

    Physiologia Plantarum, 175:e13957, http://dx.doi.org/10.1111/ppl.13957
     

  • Kitawaki K, Mihara R, Kamimura S, Sato A, Ushiyama M, Ito-Inaba Y, Inaba T*. (2023)
    A new chemical screening approach using single leaves identifies compounds that affect cold signaling in Arabidopsis.

    Plant Physiology, 193:234-245, https://doi.org/10.1093/plphys/kiad280
     

2022

 

2021

 

  • Hirosawa Y, Tada A, Matsuura T, Mori CI, Ogura Y, Hayashi T, Uehara S, Ito-Inaba Y, Inaba T*. (2021)
    Salicylic Acid Acts Antagonistically to Plastid Retrograde Signaling by Promoting the Accumulation of Photosynthesis-Associated Proteins in Arabidopsis.
    Plant and Cell Physiology, 62(11):1728-1744https://doi.org/10.1093/pcp/pcab128

2020

  • Fukazawa H., Tada A., Richardson L.G.L., Kakizaki T., Uehara S., Ito-Inaba Y., Inaba T*. (2020)
    Induction of TOC and TIC genes during photomorphogenesis is mediated primarily by cryptochrome 1 in Arabidopsis

    Scientific Reports, 10(1):20255, 10.1038/s41598-020-76939-w

 

2019

 

  • Ito-Inaba Y*, Sato M, Sato MP, Kurayama Y, Yamamoto H, Ohata M, Ogura Y, Hayashi T, Toyooka K, Inaba T.  (2019)  Alternative oxidase capacity of mitochondria in microsporophylls may function in cycad thermogenesis.
    Plant Physiology, 180, 743-756. (雑誌の表紙に採用)
    ​本論文は、注目論文として同雑誌の 
    News and Viewsで紹介されました。また、朝日新聞、日経新聞、科学新聞、宮崎日日新聞を始め、複数のメディアでも報道されました。プレスリリース資料は、こちらからどうぞ

  • Uehara S, Sei A, Sada M, Ito-Inaba Y, Inaba T*. (2019)
    Installation of authentic BicA and SbtA proteins to the chloroplast envelope membrane is achieved by the proteolytic cleavage of chimeric proteins in Arabidopsis
    Scientific Reports10.1038/s41598-020-59190-1

 

2018

2017

  • 稲葉靖子* (2017) 「植物の花による熱産生-ザゼンソウの体温調節性と研究の新展開-」, バイオサイエンスとインダストリー, 75(3), 223-226.

 

  • Tokumaru, M., Adachi, F., Toda, M., Ito-Inaba, Y., Yazu, F., Hirosawa, Y., Sakakibara, Y., Suiko, M., Kakizaki, T., Inaba, T.* (2017)
    Ubiquitin-proteasome dependent regulation of GLK1 in response to plastid signals in Arabidopsis.

    Plant Physiology, 173, 524-535.

 

2016

  • Ito-Inaba, Y.*, Masuko-Suzuki, H., Maekawa, H., Watanabe, M., Inaba, T. (2016)
    Characterization of two PEBP genes, SrFT and SrMFT, in thermogenic skunk cabbage (Symplocarpus renifolius).

    Scientific Reports., 6:29440.

 

 

2014

 

  • Okawa, K., Inoue, H., Adachi, F., Nakayama, K., Ito-Inaba, Y., Schnell, DJ., Uehara, S., Inaba, T.* (2014)
    Targeting of a polytopic membrane protein to the inner envelope membrane of chloroplasts in vivo involves multiple transmembrane segments.

    Journal of Experimental Botany, 65, 5257-65.

 

  • Sato, M*., and Ito-Inaba, Y. (2014)
    Mitochondria of thermogenic skunk cabbage.
    “Atlas of Plant Cell Structure”, Springer, 42-44.

 

2012

 

  • Ito-Inaba, Y.*, Hida, Y., Matsumura, H., Masuko, H., Yazu, F., Terauchi, R., Watanabe, M. and Inaba, T. (2012)
    The gene expression landscape of thermogenic skunk cabbage suggests critical roles for mitochondrial and vacuolar metabolic pathways in the regulation of thermogenesis.
    Plant, Cell and Environment, 35, 554-566.

 

  • Kakizaki, T., Yazu, F., Nakayama, K., Ito-Inaba, Y. and Inaba, T.* (2012)
    Plastid signaling under multiple conditions is accompanied by a common defect in RNA editing in plastids.

    Journal of Experimental Botany, 63, 251-260.

 

2011

 

2010

 

2009

  • Ito-Inaba, Y.*, Hida, Y. and Inaba, T. (2009)
    What is critical for plant thermogenesis? - Differences in mitochondrial activity and protein expression between thermogenic and non-thermogenic skunk cabbages.

    Planta, 231, 121-130.

 

  • Ito-Inaba, Y.*, Sato, M., Masuko, H., Hida, Y., Toyooka, K., Watanabe, M. and Inaba, T. (2009)
    Developmental changes and organelle biogenesis in the reproductive organs of thermogenic skunk cabbage (Symplocarpus renifolius).

    Journal of Experimental Botany, 60, 3909-3922. 雑誌の表紙に採用。朝日新聞等の複数メディアで紹介。
     

 

  • 稲葉(伊東)靖子* (2009) 生物による温度センサーの分子機構. 温度と生命システムの相関学, 東海大学出版会, 50-71.

 

  • 稲葉(伊東)靖子* (2009) 「発熱するザゼンソウ-大量のミトコンドリアを発見-」 科研費NEWS, Vol.3.

 

2008

 

  • Ito-Inaba, Y.*, Hida, Y., Ichikawa, M., Kato, Y. and Yamashita, T. (2008)
    Characterization of the plant uncoupling protein, SrUCPA, expressed in spadix mitochondria of the thermogenic skunk cabbage.

    Journal of Experimental Botany, 59, 995-1005.

 

  • 稲葉(伊東)靖子*, 齋藤茂 (2008) 熱産生における脱共役タンパク質の役割と適応進化. 化学と生物, 46, 841-849.

 

2006

  • Ito. Y., Kanamaru, K., Taniguchi, N., Miyamoto, S. and Tokuda, H.* (2006)
    A novel ligand bound ABC transporter, LolCDE, provides insights into the molecular mechanisms underlying membrane detachment of bacterial lipoproteins.

    Molecular Microbiology, 62, 1064-1075.

 

  • Ito, Y., Matsuzawa, H., Matsuyama, S., Narita, S. and Tokuda, H.* (2006)
    Genetic analysis of the mode of interplay between an ATPase subunit and membrane subunits of the lipoprotein-releasing ATP-binding cassette transporter LolCDE.

    Journal of Bacteriology, 188, 2856-2864.

 

2003

  • Ito, Y., Tomita, T., Roy, N., Nakano, A., Sugawara-Tomita, N., Watanabe, S., Okai, N., Abe, N. and Kamio, Y.* (2003)
    Cloning, Expression, and Cell Surface Localization of Paenibacillus sp. Strain W-61 Xylanase 5, a Multidomain Xylanase.
    Applied and Environmental Microbiology, 69, 6969-78.

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