業績

2023

  • Matsumoto, T., Higaki, T., Takatsuka, H., Kutsuna, N., Ogata, Y., Hasezawa, S., Umeda, M., Inada, N. (2023) Arabidopsis thaliana subclass I ACTIN DEPOLYMERIZING FACTORs regulate nuclear organization and gene expression. Plant and Cell Physiology https://academic.oup.com/pcp/advance-article/doi/10.1093/pcp/pcad092/7255892
  • Tsuji, T., Kajimoto, K., Inada, N. (2023) Measurement of Intracellular Temperature in Brown Adipocytes Using a Cationic Fluorescent Polymeric Thermometer. In: Lodhi, I.J. (eds) "Thermogenic Fat" Methods in Molecular Biology vol 2662, Humana, New York, NY. https://doi.org/10.1007/978-1-0716-3167-6_8
  • Inada, N. (2023) A guide to plant intracellular temperature imaging using fluorescent thermometers. Plant and Cell Physiology 64, 7-18

2021

  • Inada, N., Takahashi, N., and Umeda, M. (2021) Arabidopsis thaliana subclass I ACTIN DEPOLYMERIZING FACTORs and vegetative ACTIN2/8 are novel regulators of endoreplication. Journal of Plant Research 134, 1291-1300
  • 稲田のりこ、岡田松美、林晃之、内山聖一 (2021) 細胞内の温度を可視化する ―細胞内温度イメージングの実践― 植物の生長調節 56, 112-116.

2020

  • Senthivinayagam, S., Serbulea, V., Upchurch, C.M., Polanowska-Grabowska, R., Mendu, S.K., Sahu, S., Jayaguru, P., Aylor, K.W., Chordia, M.D., Steinberg, L., Oberholtzer, N., Uchiyama, S., Inada, N., Lorenz, U.M., Hariis, T.E., Keller, S.R., Meher, A.K., Kadl, A., Desai, B.N., Kundu, B.K., Leitinger, N. (2020) Adaptive thermogenesis in brown adipose tissue involves activation of pannexin-1 channels. Molecular Metabolism 44, 101130
  • 稲田のりこ(2020)細胞内温度計測におけるコントロールの重要性再考 細胞 12月号 52, 28-29.

2019

  • Hayashi, T., Kawamoto, K., Inada, N., and Uchiyama, S. (2019) Cationic fluorescent nanogel thermometers based on thermoresponsive poly(N-isopropylacrylamide) and environment-sensitive benzofurazan. Polymers 11, 1305 doi:10.3390/polym11081305
  • Mizokami, Y., Sugiura, D., Watanabe, C.K.A., Betsuyaku, E., Inada, N., and Terashima, I. (2019, May) Elevated CO2-induced changes in mesophyll conductance and anatomical traits in wild type and carbohydrate metabolism mutants of Arabidopsis thaliana. Journal of Experimental Botany 70, 4807-4818 Doi: 10.1093/jxb/erz208
  • Shimada, T.L., Betsuyaku, S, Inada, N., Ebine, K., Fujimoto, M., Uemura, T., Takano, Y., Fukuda, H., Nakano, A. and Ueda, T. (2019) Enrichment of phosphatidylinositol 4,5-bisphosphate in the extra-invasive hyphal membrane promotes Colletotrichum infection of Arabidopsis thaliana. Plant Cell&Physiology 60, 1514-1524. Doi: 10.1903/pcp/pcz058
  • Inada, N., Fukuda, N., Hayashi, T., and Uchiyama, S. (2019) Temperature Imaging using Cationic Linear Fluorescent Polymeric Thermometer and Fluorescence Lifetime Imaging Microscopy. Nature Protocols 14, 1293-1321 DOI: 10.1038/s41596-019-0145-7

2018

  • Wong, H.L., Akamatsu, A., Wang, Q., Higuchi, M., Matsuda, T., Kosami, K., Okuda, J., Inada, N., Kawasaki, T., Kaneko-Kawano, T., Nagawa, S., Tan, L., Shimamoto, K., and Kawano, Y. (2018) In vivo monitoring of plant small GTPase activation using a Förster resonance energy transfer biosensor. Plant Methods 14, 56 DOI: 10.1186/s13007-018-0325-4
  • Uchiyama, S., Tsuji, T., Kawamoto, K., Okano, K., Fukatsu, E., Noro, T., Ikado, K., Yamada, S., Shibata, Y., Hayashi, T., Inada, N., Kato, M., Koizumi, H., and Tokuyama, H. (2018, May) A Cell-Targeted Non-Cytotoxic Fluorescent Nanogel Thermometer Created with an Imidazolium-Containing Cationic Radical Initiator. Angewandte Chemie 57, 5413-5417 DOI: 10.1002/anie.201801495

2017

  • Inada, N. (2017) The plant cytoskeletons in interactions between plants and obligate biotrophs. Cytologia 82, 341-348
  • Uchiyama, S., Gota, C., Tsuji, T., and Inada, N. (2017) Intracellular temperature measurements with fluorescent polymeric thermometers. Chemical Communications 53, 10976-10992 DOI: 10.1039/C7CC06203F
  • Inada, N., Ebine, K., Ito, E., Nakano, A., and Ueda, T. (2017) Constitutive activation of plant-specific RAB5 GTPase confers increased resistance against adapted powdery mildew fungus. Plant Biotechnology 34, 89-95 DOI:10.5511/plantbiotechnology.17.0501a
  • Inada, N. (2017) Plant Actin Depolymerizing Factor - actin microfilament disassembly and more. Journal of Plant Research 130, 227-238.
  • 稲田のりこ、内山聖一 (2017) 蛍光温度プローブと蛍光寿命測定による細胞内温度イメージング 光アライアンス 8月号(日本工業出版)28(8), 33-37.
  • Fukada, T., Sakajiri, H., Kuroda, M., Kioka, N., and Sugimoto, K. (2017) Fluid shear stress applied by orbital shaking induces MG-63 osteosarcoma cells to activate ERK in two phases through distinct signaling pathways. Biochem. Biophys. Rep. 9, 257-265
  • Tanaka, S., Senda-Murata, K., Kawakita-Yamaguchi, A., Fukada, T., and Sugimoto, K.  (2017) Live cell imaging of anaphase bridge formation and subsequent cleavage furrow regression induced by the Aurora B kinase inhibitor AZD1152-HQPA. Bioimages 25, 7-19.

2016

  • Nakagawa, C., Senda-Murata, K., Kawakita-Yamaguchi, A., Fukada, T., and Sugimoto, K. (2016) Molecular Behavior of CENP-A and PCNA throughoutthe Cell Cycle in Living Human HT-1080 Cells. Mol. Biol. 5, 160 1-5
  • Phengchat, R., Tanaka, H., Morii, K., Inada, N., Murakoshi, H., Uchiyama, S., and Fukui, K. (2016) Calcium ions function as a booster of chromosome condensation.Sci. Rep. 6, 38281.
  • Yoshinari, A., Fujimoto, M., Ueda, T., Inada, N., Naito, S., and Takano, J. (2016) DRP1-dependent endocytosis is essential for polar localization and boron-induced degradation of the borate transporter BOR1 in Arabidopsis thaliana. Plant&Cell Physiology 57, 1985-2000 DOI: 10.1093/pcp/pcw121
  • Inada, N., Betsuyaku, S., Shimada, L.T., Ebine, K., Ito, E., Kutsuna, N., Hasezawa, S., Yoshitaka, T., Fukuda, H., Nakano, A., and Ueda, T. (2016, September) Modulation of plant RAB GTPase-mediated membrane trafficking pathway at the interface between plants and obligate biotrophic pathogens. Plant&Cell Physiology 57, 1854-1864 DOI: 10.1093/pcp/pcw107
  • Inada, N. (2016) Visualization of host actin microfilament dynamicity upon obligate biotrophic pathogen infection. Cytologia 81(2), 119-120
  • Inada, N., Higaki, T., and Hasezawa, S. (2016) Nuclear function of subclass I Actin Depolymerizing Factor contributes to susceptibility in Arabidopsis to an adapted powdery mildew fungus. Plant Physiology 170, 1420-1434
  • Inada, N., Higaki, T., and Hasezawa, S. (2016) Quantitative analyses on dynamic changes in the organization of host Arabidopsis thaliana actin microfilaments surrounding the infection organ of the powdery mildew fungus Golovinomyces orontii. Journal of Plant Research 129, 103-11
  • 稲田のりこ、内山聖一 (2016) 蛍光寿命測定による細胞内温度イメージング OplusE 10月号 38, 931-935