Updated on 2024/07/23

写真a

 
Inada Noriko
 
Organization
Graduate School of Agriculture Department of Agricultural Biology Professor
School of Agriculture Department of Agricultural Biology
Title
Professor
Affiliation
Institute of Agriculture
Contact information
メールアドレス
Affiliation campus
Nakamozu Campus

Position

  • Graduate School of Agriculture Department of Agricultural Biology 

    Professor  2022.04 - Now

  • School of Agriculture Department of Agricultural Biology 

    Professor  2022.04 - Now

Degree

  • 博士(理学) ( The University of Tokyo )

Research Areas

  • Life Science / Morphology and anatomical structure

  • Life Science / Plant molecular biology and physiology

  • Life Science / Cell biology

Research Interests

  • Cytoskeleton

  • Cell biology

  • Intracellular temperature

  • Plant-microbe interactions

  • Plant immunity

Research subject summary

  • 細胞内温度イメージング

  • 植物のストレス応答

Professional Memberships

  • 日本植物生理学会

    1998.05 - Now   Domestic

  • 日本植物形態学会

    1996.09 - Now   Domestic

  • 日本植物学会

    1996.09 - Now   Domestic

  • THE PHYTOPATHOLOGICAL SOCIETY OF JAPAN

  • THE JAPANESE SOCIETY OF PLANT PHYSIOLOGISTS

  • THE JAPANESE SOCIETY OF PLANT MORPHOLOGY

  • THE BOTANICAL SOCIETY OF JAPAN

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Committee Memberships (off-campus)

  • 広報委員   日本植物学会  

    2021.03 - 2023.03 

  • 評議員   日本植物形態学会  

    2020.01 - Now 

  • 代議員   日本植物生理学会  

    2020.01 - Now 

  • 代議員   日本植物学会  

    2018.06 - 2022.06 

  • 評議員   日本植物形態学会  

    2016.09 - 2018.08 

  • 代議員   日本細胞生物学会  

    2015.06 - 2017.05 

  • 評議員   日本植物生理学会  

    2014.01 - 2015.12 

  • 連携会員   日本学術会議  

    2023.10 - 2029.09 

  • 代議員   日本植物バイオテクノロジー学会  

    2022.09 - Now 

  • 編集長   日本植物形態学会  

    2022.09 - Now 

  • 庶務幹事   日本植物生理学会  

    2022.04 - 2024.03 

  • 男女共同参画委員   日本植物学会  

    2012.02 - 2015.12 

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Awards

  • PCP論文賞

    2018.03   日本植物生理学会  

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    Country:Japan

  • Cytologia奨励賞

    2016   日本メンデル協会  

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    Country:Japan

  • 日本植物学会 特別賞

    2014.09   日本植物学会  

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    Country:Japan

  • 日本植物形態学会 奨励賞

    2000.09   日本植物形態学会  

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    Country:Japan

Job Career (off-campus)

  • Osaka Metropolitan University   School of Agriculture

    2022.04 - Now

  • Osaka Prefecture University   College of Life, Environment, and Advanced Sciences

    2021.04 - Now

  • Osaka Prefecture University   College of Life, Environment, and Advanced Sciences

    2018.04 - 2021.03

  • Nara Institute of Science and Technology   Graduate School of Biological Sciences   Lecturer

    2015.04 - Now

Papers

  • Regulation of heterochromatin organization in plants Reviewed

    Inada N.

    Journal of Plant Research   2024( ISSN:09189440

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    Authorship:Corresponding author   International / domestic magazine:International journal  

    DOI: 10.1007/s10265-024-01550-3

    PubMed

  • <i>Arabidopsis thaliana</i> Subclass I ACTIN DEPOLYMERIZING FACTORs Regulate Nuclear Organization and Gene Expression Reviewed

    Tomoko Matsumoto, Takumi Higaki, Hirotomo Takatsuka, Natsumaro Kutsuna, Yoshiyuki Ogata, Seiichiro Hasezawa, Masaaki Umeda, Noriko Inada

    Plant And Cell Physiology   64 ( 10 )   1231 - 1242   2023.08( ISSN:0032-0781 ( eISSN:1471-9053

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    Publishing type:Research paper (scientific journal)  

    Abstract

    ACTIN DEPOLYMERIZING FACTOR (ADF) is a conserved protein that regulates the organization and dynamics of actin microfilaments. Eleven ADFs in the Arabidopsis thaliana genome are grouped into four subclasses, and subclass I ADFs, ADF1–4, are all expressed throughout the plant. Previously, we showed that subclass I ADFs function in the regulation of the response against powdery mildew fungus as well as in the regulation of cell size and endoreplication. Here, we report a new role of subclass I ADFs in the regulation of nuclear organization and gene expression. Through microscopic observation of epidermal cells in mature leaves, we found that the size of chromocenters in both adf4 and transgenic lines where expression of subclass I ADFs is downregulated (ADF1-4Ri) was reduced compared with that of wild-type Col-0. Arabidopsis thaliana possesses eight ACTIN (ACT) genes, among which ACT2, −7 and −8 are expressed in vegetative organs. The chromocenter size in act7, but not in the act2/8 double mutant, was enlarged compared with that in Col-0. Microarray analysis revealed that 1,818 genes were differentially expressed in adf4 and ADF1-4Ri. In particular, expression of 22 nucleotide-binding leucine-rich repeat genes, which are involved in effector-triggered plant immunity, was reduced in adf4 and ADF1-4Ri. qRT-PCR confirmed the altered expressions shown with microarray analysis. Overall, these results suggest that ADF regulates various aspects of plant physiology through its role in regulation of nuclear organization and gene expression. The mechanism how ADF and ACT regulate nuclear organization and gene expression is discussed.

    DOI: 10.1093/pcp/pcad092

    PubMed

  • A Guide to Plant Intracellular Temperature Imaging using Fluorescent Thermometers Reviewed

    Inada N.

    Plant &cell physiology   64 ( 1 )   7 - 18   2023.02( ISSN:0032-0781

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    Authorship:Corresponding author  

    DOI: 10.1093/pcp/pcac123

    PubMed

  • Arabidopsis thaliana subclass I ACTIN DEPOLYMERIZING FACTORs and vegetative ACTIN2/8 are novel regulators of endoreplication.

    Noriko Inada, Naoki Takahashi, Masaaki Umeda

    Journal of plant research   2021.07

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:Domestic journal  

    Endoreplication is a type of cell cycle where genome replication occurs without mitosis. An increase of ploidy level by endoreplication is often associated with cell enlargement and an enhanced plant growth. Here we report Arabidopsis thaliana subclass I ACTIN DEPOLYMERIZING FACTORs (ADFs) and vegetative ACTIN2/8 as novel regulators of endoreplication. A. thaliana has 11 ADF members that are divided into 4 subclasses. Subclass I consists of four members, ADF1, -2, -3, and -4, all of which constitutively express in various tissues. We found that both adf4 knockout mutant and transgenic plants in which expressions of all of four subclass I ADFs are suppressed (ADF1-4Ri) showed an increased leaf area of mature first leaves, which was associated with a significant increase of epidermal pavement cell area. Ploidy analysis revealed that the ploidy level was significantly increased in mature leaves of ADF1-4Ri. The increased ploidy was also observed in roots of adf4 and ADF1-4Ri, as well as in dark-grown hypocotyls of adf4. Furthermore, double mutants of vegetative ACT2 and ACT8 (act2/8) exhibited an increase of leaf area and ploidy level in mature leaves. Therefore, actin-relating pathway could regulate endoreplication. The possible mechanisms that actin and ADFs regulate endoreplication are discussed.

    DOI: 10.1007/s10265-021-01333-0

    PubMed

  • The Arabidopsis thaliana nucleotide sugar transporter GONST2 is a functional homolog of GONST1.

    Beibei Jing, Toshiki Ishikawa, Nicole Soltis, Noriko Inada, Yan Liang, Gosia Murawska, Lin Fang, Fekadu Andeberhan, Ramana Pidatala, Xiaolan Yu, Edward Baidoo, Maki Kawai-Yamada, Dominique Loque, Daniel J Kliebenstein, Paul Dupree, Jenny C Mortimer

    Plant direct   5 ( 3 )   e00309   2021.03

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    Glycosylinositolphosphorylceramides (GIPCs) are the predominant lipid in the outer leaflet of the plasma membrane. Characterized GIPC glycosylation mutants have severe or lethal plant phenotypes. However, the function of the glycosylation is unclear. Previously, we characterized Arabidopsis thaliana GONST1 and showed that it was a nucleotide sugar transporter which provides GDP-mannose for GIPC glycosylation. gonst1 has a severe growth phenotype, as well as a constitutive defense response. Here, we characterize a mutant in GONST1's closest homolog, GONST2. The gonst2-1 allele has a minor change to GIPC headgroup glycosylation. Like other reported GIPC glycosylation mutants, gonst1-1gonst2-1 has reduced cellulose, a cell wall polymer that is synthesized at the plasma membrane. The gonst2-1 allele has increased resistance to a biotrophic pathogen Golovinomyces orontii but not the necrotrophic pathogen Botrytis cinerea. Expression of GONST2 under the GONST1 promoter can rescue the gonst1 phenotype, indicating that GONST2 has a similar function to GONST1 in providing GDP-D-Man for GIPC mannosylation.

    DOI: 10.1002/pld3.309

    PubMed

  • Intracellular temperature imaging Invited

    Noriko Inada, Matsumi Okada, Teruyuki Hayashi, Seiichi Uchiyama

    Regulation of Plant Growth&Development   56 ( 2 )   112 - 116   2021

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    Authorship:Lead author, Corresponding author   Publishing type:Research paper (scientific journal)  

    DOI: 10.18978/jscrp.56.2_112

  • Adaptive thermogenesis in brown adipose tissue involves activation of pannexin-1 channels. Reviewed

    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.

    Molecular Metabolism 雑誌   44   2020

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    Kind of work:Joint Work  

  • Elevated CO2-induced changes in mesophyll conductance and anatomical traits in wild type and carbohydrate-metabolism mutants of Arabidopsis. Reviewed

    Yusuke Mizokami, Daisuke Sugiura, Chihiro K A Watanabe, Eriko Betsuyaku, Noriko Inada, Ichiro Terashima

    Journal of experimental botany   70 ( 18 )   4807 - 4818   2019.09

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    Publishing type:Research paper (scientific journal)   International / domestic magazine:International journal  

    Decreases in photosynthetic rate, stomatal conductance (gs), and mesophyll conductance (gm) are often observed under elevated CO2 conditions. However, which anatomical and/or physiological factors contribute to the decrease in gm is not fully understood. Arabidopsis thaliana wild-type and carbon-metabolism mutants (gwd1, pgm1, and cfbp1) with different accumulation patterns of non-structural carbohydrates were grown at ambient (400 ppm) and elevated (800 ppm) CO2. Anatomical and physiological traits of leaves were measured to investigate factors causing the changes in gm and in the mesophyll resistance (expressed as the reciprocal of mesophyll conductance per unit chloroplast surface area facing to intercellular space, Sc/gm). When grown at elevated CO2, all the lines showed increases in cell wall mass, cell wall thickness, and starch content, but not in leaf thickness. gm measured at 800 ppm CO2 was significantly lower than at 400 ppm CO2 in all the lines. Changes in Sc/gm were associated with thicker cell walls rather than with excess starch content. The results indicate that the changes in gm and Sc/gm that occur in response to elevated CO2 are independent of non-structural carbohydrates, and the cell wall represents a greater limitation factor for gm than starch.

    DOI: 10.1093/jxb/erz208

    PubMed

  • Cationic Fluorescent Nanogel Thermometers based on Thermoresponsive Poly(N-isopropylacrylamide) and Environment-Sensitive Benzofurazan. Reviewed

    Teruyuki Hayashi, Kyoko Kawamoto, Noriko Inada, Seiichi Uchiyama

    Polymers   11 ( 8 )   2019.08

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    International / domestic magazine:International journal  

    Cationic nanogels of N-isopropylacrylamide (NIPAM), including NIPAM-based cationic fluorescent nanogel thermometers, were synthesized with a cationic radical initiator previously developed in our laboratory. These cationic nanogels were characterized by transmission electron microscopy (TEM), dynamic light scattering (DLS), zeta potential measurements and fluorescence spectroscopy, as summarized in the temperature-dependent fluorescence response based on the structural change in polyNIPAM units in aqueous solutions. Cellular experiments using HeLa (human epithelial carcinoma) cells demonstrated that NIPAM-based cationic fluorescent nanogel thermometers can spontaneously enter the cells under mild conditions (at 25 °C for 20 min) and can show significant fluorescence enhancement without cytotoxicity with increasing culture medium temperature. The combination of the ability to enter cells and non-cytotoxicity is the most important advantage of cationic fluorescent nanogel thermometers compared with other types of fluorescent polymeric thermometers, i.e., anionic nanogel thermometers and cationic/anionic linear polymeric thermometers.

    DOI: 10.3390/polym11081305

    PubMed

  • Enrichment of Phosphatidylinositol 4,5-Bisphosphate in the Extra-Invasive Hyphal Membrane Promotes Colletotrichum Infection of Arabidopsis thaliana. Reviewed

    Takashi L Shimada, Shigeyuki Betsuyaku, Noriko Inada, Kazuo Ebine, Masaru Fujimoto, Tomohiro Uemura, Yoshitaka Takano, Hiroo Fukuda, Akihiko Nakano, Takashi Ueda

    Plant & cell physiology   60 ( 7 )   1514 - 1524   2019.07

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    International / domestic magazine:Domestic journal  

    Pathogenic fungi from the genus Colletotrichum form invasive hyphae; the hyphae are surrounded by an extra-invasive hyphal membrane (EIHM), which is continuous with the plant plasma membrane. Although the EIHM plays a crucial role as the interface between plant and fungal cells, its precise function during Colletotrichum infection remains elusive. Here, we show that enrichment of phosphoinositides (PIs) has a crucial role in Colletotrichum infection. We observed the localization of PIs in Arabidopsis thaliana cells infected by A. thaliana-adapted Colletotrichum higginsianum (Ch), and found that phosphatidylinositol 4,5-bisphosphate [PI(4,5)P2] was extremely enriched in the EIHM during Ch infection. We also found that phosphatidylinositol 4-phosphate-5 kinase (PIP5K), which catalyzes production of PI(4,5)P2, also accumulated at the EIHM. The overexpression of PIP5K3 in A. thaliana increased hyphal invasion by Ch. An exocytic factor, EXO84b, was targeted to the EIHM during Ch infection, although endocytic factors such as CLATHRIN LIGHT CHAIN 2 and FLOTILLIN 1 did not. Intriguingly, the interfacial membranes between A. thaliana and powdery mildew- or downy mildew-causing pathogens did not accumulate PI(4,5)P2. These results suggest that Ch could modify the PI(4,5)P2 levels in the EIHM to increase the exocytic membrane/protein supply of the EIHM for successful infection. Our results also suggest that PI(4,5)P2 biosynthesis is a promising target for improved defense against Colletotrichum infection.

    DOI: 10.1093/pcp/pcz058

    PubMed

  • Cationic fluorescent nanogel thermometers based on thermoresponsive poly(N-isopropylacrylamide) and environment-sensitive benzofurazan. Reviewed

    Hayashi, T., Kawamoto, K., Inada, N., and Uchiyama, S.

    Polymers 雑誌   11   2019

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    Kind of work:Joint Work  

  • Enrichment of phosphatidylinositol 4,5-bisphosphate in the extra-invasive hyphal membrane promotes Colletotrichum infection of Arabidopsis thaliana. Reviewed

    Shimada, T.L., Betsuyaku, S, Inada, N., Ebine, K., Fujimoto, M., Uemura, T., Takano, Y., Fukuda, H., Nakano, A. and Ueda, T.

    Plant Cell&Physiology 雑誌   60   2019

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    Kind of work:Joint Work  

  • Temperature Imaging using Cationic Linear Fluorescent Polymeric Thermometer and Fluorescence Lifetime Imaging Microscopy. Reviewed

    Inada, N., Fukuda, N., Hayashi, T., and Uchiyama, S.

    Nature Protocols 雑誌   14   2019

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    Kind of work:Joint Work  

  • Elevated CO2-induced changes in mesophyll conductance and anatomical traits in wild type and carbohydrate metabolism mutants of Arabidopsis thaliana. Reviewed

    2. Mizokami, Y., Sugiura, D., Watanabe, C.K.A., Betsuyaku, E., Inada, N., and Terashima, I.

    Journal of Experimental Botany 雑誌   70   2019

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    Kind of work:Joint Work  

  • Temperature imaging using a cationic linear fluorescent polymeric thermometer and fluorescence lifetime imaging microscopy Reviewed

    Noriko Inada, Nanaho Fukuda, Teruyuki Hayashi, Seiichi Uchiyama

    Nature protocols   2019

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    Authorship:Lead author, Corresponding author   Publishing type:Research paper (scientific journal)  

    DOI: 10.1038/s41596-019-0145-7

  • A Cell-Targeted Non-Cytotoxic Fluorescent Nanogel Thermometer Created with an Imidazolium-Containing Cationic Radical Initiator. Reviewed

    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.

    Angewandte Chemie 雑誌   57   2018

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    Kind of work:Joint Work  

  • In vivo monitoring of plant small GTPase activation using a Förster resonance energy transfer biosensor. Reviewed

    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.

    Plant Methods 雑誌   14   2018

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    Kind of work:Joint Work  

  • 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

    稲田のりこ、内山聖一

    光アライアンス 雑誌   28   2017.08

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    Kind of work:Joint Work  

  • Plant Actin Depolymerizing Factor – Actin microfilament disassembly and more. Reviewed

    Inada, N.

    Journal of Plant Research 雑誌   130   2017

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    Kind of work:Single Work  

  • Constitutive activation of plant-specific RAB5 GTPase confers increased resistance against adapted powdery mildew fungus. Reviewed

    Inada, N., Ebine, K., Ito, E., Nakano, A., and Ueda, T.

    Plant Biotechnology 雑誌   34   2017

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    Kind of work:Joint Work  

  • Intracellular temperature measurements with fluorescent polymeric thermometers. Reviewed

    Uchiyama, S., Gota, C., Tsuji, T., and Inada, N.

    Chemical Communications 雑誌   53   2017

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    Kind of work:Joint Work  

  • The plant cytoskeletons in interactions between plants and obligate biotrophs. Reviewed

    Inada, N.

    Cytologia 雑誌   82   2017

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    Kind of work:Single Work  

  • 蛍光寿命測定による細胞内温度イメージング

    稲田のりこ、内山聖一

    OplusE 雑誌   38   2016.10

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    Kind of work:Joint Work  

  • 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. Reviewed

    Inada, N., Higaki, T., and Hasezawa, S.

    Journal of Plant Research 雑誌   129   2016

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    Kind of work:Joint Work  

  • Nuclear function of subclass I Actin Depolymerizing Factor contributes to susceptibility in Arabidopsis to an adapted powdery mildew fungus. Reviewed

    Inada, N., Higaki, T., and Hasezawa, S.

    Plant Physiology 雑誌   170   2016

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    Kind of work:Joint Work  

  • Visualization of host actin microfilament dynamicity upon obligate biotrophic pathogen infection. Reviewed

    Inada, N.

    Cytologia 雑誌   8   2016

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    Kind of work:Single Work  

  • Modulation of plant RAB GTPase-mediated membrane trafficking pathway at the interface between plants and obligate biotrophic pathogens. Reviewed

    Inada, N., Betsuyaku, S., Shimada, L.T., Ebine, K., Ito, E., Kutsuna, N., Hasezawa, S., Yoshitaka, T., Fukuda, H., Nakano, A., and Ueda, T.

    Plant&Cell Physiology 雑誌   57   2016

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    Kind of work:Joint Work  

  • DRP1-dependent endocytosis is essential for polar localization and boron-induced degradation of the borate transporter BOR1 in Arabidopsis thaliana. Reviewed

    Yoshinari, A., Fujimoto, M., Ueda, T., Inada, N., Naito, S., and Takano, J.

    Plant&Cell Physiology 雑誌   57   2016

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    Kind of work:Joint Work  

  • Calcium ions function as a booster of chromosome condensation. Reviewed

    Phengchat, R., Tanaka, H., Morii, K., Inada, N., Murakoshi, H., Uchiyama, S., and Fukui, K.

    Scientific Reports 雑誌   6   2016

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    Kind of work:Joint Work  

  • A cell-permeable fluorescent polymeric thermometer for intracellular temperature mapping in mammalian cell lines. Reviewed

    Hayashi, T., Fukuda, N., Uchiyama, S., and Inada, N.

    PLOS ONE 雑誌   10   2015

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    Kind of work:Joint Work  

  • A cationic fluorescent polymeric thermometer for the ratiometric sensing of intracellular temperature. Reviewed

    Uchiyama, S., Tsuji, T., Ikado, K., Yoshida, A., Kawamoto, K., Hayashi, T., and Inada, N.

    Analyst 雑誌   140   2015

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    Kind of work:Joint Work  

  • Membrane trafficking pathways and their roles in plant-microbe interactions. Reviewed

    Inada, N., and Ueda, T.

    Plant&Cell Physiology 雑誌   55   2014.04

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    Kind of work:Joint Work  

  • Dysregulation of the proteasome increases the toxicity of ALS-linked mutant SOD1. Reviewed

    Kitamura, A., Inada, N., Kubota, H., Matsumoto, G., Kinjo, M., Morimoto, R.I., and Nagata, N.

    Genes to Cells 雑誌   19   2014.03

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    Kind of work:Joint Work  

  • The carbon/nitrogen regulator ARABIDOPSIS TOXICOS EN LEVADURA31 controls papilla formation in response to powdery mildew fungi penetration by interacting with SYNTAXIN OF PLANTS121 in Arabidopsis. Reviewed

    Maekawa, S., Inada, N., Yasuda, S., Fukao, Y., Fujiwara, M., Sato T., and Yamaguchi, J.

    Plant Physiology 雑誌   164   2014.02

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    Kind of work:Joint Work  

  • 細胞の温度を測る Reviewed

    稲田のりこ、林晃之、福田七穂、内山聖一

    バイオイメージング 雑誌   23   2014

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    Kind of work:Joint Work  

  • Appresorium-localized NADPH oxidase B is essential for aggressiveness and pathogenicity in the host-specific, toxin-producing fungus Alternaria alternate Japanese pear pathotype. Reviewed

    Morita, Y., Hyon, G-S., Hosogi, N., Miyata, N., Nakayashiki, H., Muranaka, Y., Inada, N., Park, P., and Ikeda, K.

    Molecular Plant Pathology 雑誌   14   2013.05

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    Kind of work:Joint Work  

  • 新規蛍光プローブと蛍光寿命イメージング顕微鏡を用いた細胞内温度計測イメージング

    稲田のりこ、岡部弘基、林晃之、内山聖一

    Plant Morphology 雑誌   25   2013.04

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    Kind of work:Joint Work  

  • イメージングで探るうどんこ病菌感染応答の分子機構

    稲田のりこ

    植物感染生理談話会論文集 雑誌   48   2013

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    Kind of work:Single Work  

  • Methods and benefits of imaging the temperature distribution inside living cells.

    Inada, N., and Uchiyama, S.

    Imaging in Medicine 雑誌   5   2013

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    Kind of work:Joint Work  

  • Environment-sensitive fluorophores with benzothiadiazole and benzoselenadiazole structures as candidate components of a fluorescent polymeric thermometer. Reviewed

    Uchiyama, S., Kimura, K., Gota, C., Okabe, K., Kawamoto, K., Inada, N., Yoshihara, T., and Tobita, S.

    Chemistry - European Journal 雑誌   18   2012.07

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    Kind of work:Joint Work  

  • Intracellular temperature mapping with a fluorescent polymeric thermometer and fluorescence lifetime imaging microscopy. Reviewed

    Okabe, K., Inada, N., Gota, C., Harada, Y., Funatsu, T., and Uchiyama, S.

    Nature Communications 雑誌   3   2012.03

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    Kind of work:Joint Work  

  • 蛍光寿命測定による細胞内温度分布イメージング 

    内山聖一、岡部弘基、稲田のりこ

    光化学 雑誌   43   2012

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  • The inhibition of prepenetration processes of the powdery mildew Golovinomyces orontii on host inflorescence stems is reduced in the Arabidopsis cuticular mutant cer3 but not in cer1. Reviewed

    Inada, N., and Savory, E.A.

    Journal of General Plant Patholog 雑誌   77   2011.08

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    Kind of work:Joint Work  

  • Live-cell imaging of photosystem II antenna dissociation during state transition. Reviewed

    Iwai, M., Yokono, M., Inada, N., and Minagawa, J.

    Proceedings of National Academy of Sciences U.S.A. 雑誌   107   2010.02

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    Kind of work:Joint Work  

  • Laser microdissection of Arabidopsis cells at the powdery mildew infection site reveals site-specific processes and regulators. Reviewed

    Chandran, D., Inada, N., Hather, G., Kleindt, C.K., and Wildermuth, M.C.

    Proceedings of National Academy of Sciences U.S.A. 雑誌   107   2010.01

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  • Functional association of cell death suppressor, Arabidopsis Bax inhibitor-1, with fatty acid 2-hydroxylation through cytochrome b5. Reviewed

    Nagano, M., Ihara-Ohori, Y., Imai, H., Inada, N., Fujimoto, M., Tsutsumi, N., Uchimiya, H., and Kawai-Yamada, M.

    Plant Journal 雑誌   58   2009.04

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    Kind of work:Joint Work  

  • Arabidopsis isochorismate synthase functional in pathogen-induced salicylate biosynthesis exhibits properties consistent with a role in diverse stress responses. Reviewed

    Strawn, M.A., Marr, S.K., Inoue, K., Inada, N., Zubieta, C., and Wildermuth, M.C.

    Journal of Biological Chemistry 雑誌   282   2007.02

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    Kind of work:Joint Work  

  • tie-dyed1 regulates carbohydrate accumulation in maize leaves. Reviewed

    Braun, D.M., Ma, Y., Inada, N., Muszynski, M.G., and Baker, F.

    Plant Physiology 雑誌   142   2006.12

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    Kind of work:Joint Work  

  • Novel tissue preparation method and cell-specific marker for laser microdissection of Arabidopsis mature leaf. Reviewed

    Inada, N., and Wildermuth, M.

    Planta 雑誌   221   2005.04

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    Kind of work:Joint Work  

  • Functional conservation and molecular dissection of ROUGH SHEATH2 and ASYMMETRIC LEAF1 function in leaf development. Reviewed

    Theodoris, G., Inada, N., and Freeling, M.

    Proceedings of National Academy of Sciences U.S.A. 雑誌   100   2003.05

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    Kind of work:Joint Work  

  • Dedifferentiation of starch-storing cultured tobacco cells: effects of 2,4-dichlorophenoxy acetic acid on multiplication, starch content, organellar DNA content, and starch synthesis gene expression. Reviewed

    Miyazawa, Y., Kutsuna, N., Inada, N., Kuroiwa, H., Kuroiwa, T. and Yoshida, S.

    Plant Cell Reports 雑誌   21   2002.11

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    Kind of work:Joint Work  

  • An mt+ gamete-specific nuclease that targets mt- chloroplasts during sexual reproduction in C. reinhardtii. Reviewed

    Nishimura, Y., Misumi, O., Kato, K., Inada, N., Higashiyama, T., Momoyama, Y., and Kuroiwa, T.

    Genes&Development 雑誌   16   2002.05

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    Kind of work:Joint Work  

  • Three-dimensional progression of programmed death in rice coleoptile. Reviewed

    Inada, N., Sakai, A., Kuroiwa, H., and Kuroiwa, T.

    International Review of Cytology 雑誌   218   2002

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    Kind of work:Joint Work  

  • Phosphorylation of a bifunctional enzyme, 6-phosphofructo-2-kinase/fructose-2, 6-bisphosphate 2-phosphatase, is regulated physiologically and developmentally in rosette leaves of Arabidopsis thaliana. Reviewed

    Furumoto, T., Teramoto, M., Inada, N., Ito, M., Nishida, I., and Watanabe, A.

    Plant Cell&Physiology 雑誌   42   2001.10

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    Kind of work:Joint Work  

  • Dark-inducible genes from Arabidopsis thaliana are associated with leaf senescence and repressed by sugars. Reviewed

    Fujiki, Y., Yoshikawa, Y., Sato, T., Inada, N., Ito, M., Nishida, I., and Watanabe, A.

    Physiologia Plantarum 雑誌   111   2001.03

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    Kind of work:Joint Work  

  • Senescence in the nongreening region of the rice (Oryza sativa) coleoptile. Reviewed

    Inada, N., Sakai, A., Kuroiwa, H., and Kuroiwa, T.

    Protoplasma 雑誌   214   2000.09

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    Kind of work:Joint Work  

  • イネ葉の老化プログラムに関する三次元的解析

    稲田のりこ

    Plant Morphology 雑誌   12   2000.04

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    Kind of work:Single Work  

  • Senescence program in rice (Oryza sativa L.) leaves: Analysis of the blade of the second leaf at the tissue and cellular levels. Reviewed

    Inada, N., Sakai, A., Kuroiwa, H., and Kuroiwa, T.

    Protoplasma 雑誌   207   1999.09

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    Kind of work:Joint Work  

  • Comparative analysis of DNA synthesis activity in plastid-nuclei and mitochondrial-nuclei simultaneously isolated from cultured tobacco cells. Reviewed

    Sakai, A., Suzuki, T., Nagata, N., Sasaki, N., Miyazawa, Y., Saito, C., Inada, N., Nishimura, Y., and Kuroiwa, T.

    Plant Science 雑誌   140   1999.01

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    Kind of work:Joint Work  

  • Three-dimensional analysis of the senescence program in rice (Oryza sativa L.) coleoptiles. Reviewed

    Inada, N., Sakai, A., Kuroiwa, H., and Kuroiwa, T.

    Planta 雑誌   206   1998.10

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    Kind of work:Joint Work  

  • Transcriptional activities of the chloroplast-nuclei and proplastid-nuclei isolated from tobacco exhibit different sensitivities to tagetitoxin: Implication of the presence of distinct RNA polymerases. Reviewed

    Sakai, A., Saito, C., Inada, N., and Kuroiwa, T.

    Plant Cell&Physiology 雑誌   39   1998.09

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    Kind of work:Joint Work  

  • Three-dimensional analysis of the senescence program in rice (Oryza sativa L.) coleoptiles: Investigations of tissues and cells by fluorescence microscopy. Reviewed

    Inada, N., Sakai, A., Kuroiwa, H., and Kuroiwa, T.

    Planta 雑誌   205   1998.05

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    Kind of work:Joint Work  

  • Clear visualization of the products of nonradioactive in situ hybridization in plant tissue by simple dark-field microscopy. Reviewed

    Matsunaga, S., Kawano, S., Higashiyama, T., Inada, N., and Kuroiwa, T.

    Micron 雑誌   28   1997.06

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    Kind of work:Joint Work  

▼display all

Books and Other Publications

MISC

  • 細胞内温度計測におけるコントロールの重要性再考

    稲田のりこ

    細胞   52   2020.12

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  • 【細胞の温度を測る】細胞内温度計測におけるコントロールの重要性再考

    稲田 のりこ

    細胞   52 ( 14 )   814 - 815   2020.12( ISSN:1346-7557

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    筆者らが開発した細胞内温度イメージング法によって、細胞内に1℃以上の温度差があること、薬剤処理により細胞内温度が1℃以上上昇することが明らかになった。一方、一つの細胞がその内部で10^-5K以上の温度変化を示すことは理論的に不可能であるとされており、理論と実験科学とのギャップに関する議論は未だ続いている。本稿では、筆者らが確立した細胞内温度イメージング系、細胞内温度についての理論と実験科学とのギャップに関する議論について紹介し、将来的に実験科学の立場からこのギャップを埋めていくための試みの一つとして、細胞内温度計測におけるコントロールプローブを用いた対照実験の重要性を再考する。(著者抄録)

Presentations

  • Establishment of an intracellular temperature imaging method for plants using a fluorescent polymeric thermometer for ratiometric sensing Domestic conference

    2024.03 

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    Presentation type:Oral presentation (general)  

  • The Loss of Arabidopsis thaliana Actin Depolymerizing Factors alters the expression of NLR type R genes upon Pathogen infection Domestic conference

    2024.03 

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    Presentation type:Poster presentation  

  • 細胞内温度イメージングとその応用 Invited Domestic conference

    稲田のりこ

    CVMW2023  2023.09 

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    Presentation type:Oral presentation (invited, special)  

    Venue:神戸  

  • 植物サイズと核内DNA倍加制御におけるアクチン脱重合因子の機能解析 Domestic conference

    酒井彩紀子、稲田のりこ

    日本植物学会第87回大会  2023.09 

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    Presentation type:Oral presentation (general)  

    Venue:北海道大学  

  • アブラナ科炭疽病応答機構における植物アクチン脱重合因子の機能解析 Domestic conference

    青木さくら、梅田正明、稲田のりこ

    日本植物学会第87回大会  2023.09 

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    Presentation type:Oral presentation (general)  

    Venue:北海道大学  

  • 病害応答時の遺伝子発現制御におけるシロイヌナズナアクチン脱重合因子の機能解析 Domestic conference

    松本朋子、稲田のりこ

    日本植物学会第87回大会  2023.09 

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    Presentation type:Oral presentation (general)  

    Venue:北海道大学  

  • 植物サイズと核内DNA倍加制御におけるアクチン脱重合因子の機能解析 Domestic conference

    酒井彩紀子、稲田のりこ

    日本植物形態学会第35回大会  2023.09 

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    Presentation type:Poster presentation  

    Venue:北海道大学  

  • アクチン脱重合因子は病原体感染時にNLR遺伝子の発現を変化させる Domestic conference

    松本朋子、稲田のりこ

    日本植物形態学会第35回大会  2023.09 

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    Presentation type:Poster presentation  

    Venue:北海道大学  

  • シロイヌナズナのサブクラスⅠアクチン脱重合因子は細胞核内構造と遺伝子発現を制御する Domestic conference

    松本朋子、檜垣匠、高塚大知、朽名夏麿、尾形義之、馳澤盛一郎、梅田正明、稲田のりこ

    第64回日本植物生理学会年会  2023.03 

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    Presentation type:Oral presentation (general)  

    Venue:東北大学  

  • アクチン脱重合因子は細胞核内構造及び遺伝子発現の制御に関与する

    松本朋子, 稲田のりこ

    日本植物形態学会第34回大会  2022.09 

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    Presentation type:Poster presentation  

  • 細胞内温度イメージングの植物細胞への適用を目指して Invited

    稲田のりこ, 林晃之, 内山聖一

    第30回日本バイオイメージング学会学術集会  2022.09 

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    Presentation type:Oral presentation (invited, special)  

  • アブラナ科炭疽病応答におけるアクチン脱重合因子の機能解析

    青木さくら, 稲田のりこ

    近畿植物学会  2021.11 

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    Presentation type:Oral presentation (general)  

  • 細胞核内におけるアクチン脱重合因子の機能解析

    松本朋子, 稲田のりこ

    近畿植物学会  2021.11 

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    Presentation type:Oral presentation (general)  

  • シロイヌナズナのアクチン脱重合因子とACT2/8は核内DNA倍加の新規制御因子である

    稲田のりこ, 高橋直紀, 梅田正明

    日本植物学会第85回大会  2021.09 

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    Presentation type:Oral presentation (general)  

  • 植物アクチン脱重合因子の新規機能の解析

    稲田のりこ

    近畿植物学会  2019.11 

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    Presentation type:Oral presentation (invited, special)  

  • 細胞核内高次構造と遺伝子発現制御におけるアクチン脱重合因子の機能解析

    松本朋子, 稲田のりこ

    日本植物学会第86回大会 

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    Presentation type:Oral presentation (general)  

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Grant-in-Aid for Scientific Research

  • 細胞核形態とクロマチン構造の制御における植物アクチン脱重合因子の機能解析

    Grant-in-Aid for Scientific Research(C)  2026

  • Biochemical demonstration and functional verification of chimeric complex formation in kleptoplasy

    Grant-in-Aid for Scientific Research(B)  2026

  • 細胞核形態とクロマチン構造の制御における植物アクチン脱重合因子の機能解析

    Grant-in-Aid for Scientific Research(C)  2025

  • Biochemical demonstration and functional verification of chimeric complex formation in kleptoplasy

    Grant-in-Aid for Scientific Research(B)  2025

  • 細胞核形態とクロマチン構造の制御における植物アクチン脱重合因子の機能解析

    Grant-in-Aid for Scientific Research(C)  2024

  • Biochemical demonstration and functional verification of chimeric complex formation in kleptoplasy

    Grant-in-Aid for Scientific Research(B)  2024

  • 細胞核形態とクロマチン構造の制御における植物アクチン脱重合因子の機能解析

    Grant-in-Aid for Scientific Research(C)  2023.04

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Charge of on-campus class subject

  • 応用生物科学概論

    2024   Weekly class   Undergraduate

  • 生化学

    2024   Weekly class   Undergraduate

  • 細胞分子生物学特論

    2024   Weekly class   Graduate school

  • 応用生物科学特論

    2024   Weekly class   Graduate school

  • 応用生物科学研究実験2A

    2024   Intensive lecture   Graduate school

  • 応用生物科学研究実験1A

    2024   Intensive lecture   Graduate school

  • 応用生物科学ゼミナール2A

    2024   Intensive lecture   Graduate school

  • 応用生物科学ゼミナール1A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験1A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験3A

    2024   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験2A

    2024   Intensive lecture   Graduate school

  • 生化学

    2023   Weekly class   Undergraduate

  • 応用生物科学特別研究実験2A

    2023   Intensive lecture   Graduate school

  • 応用生物科学特別研究実験1A

    2023   Intensive lecture   Graduate school

  • 細胞分子生物学特論

    2023   Weekly class   Graduate school

  • 応用生物科学キャリアデザイン

    2023   Intensive lecture   Graduate school

  • 応用生物科学特論

    2023   Weekly class   Graduate school

  • 応用生物科学研究実験2A

    2023   Intensive lecture   Graduate school

  • 応用生物科学研究実験1A

    2023   Intensive lecture   Graduate school

  • 植物バイオサイエンス卒業研究

    2023   Intensive lecture   Undergraduate

  • 植物バイオサイエンスインターンシップ

    2023   Intensive lecture   Undergraduate

  • ゲノム生物学

    2023   Weekly class   Undergraduate

  • 植物バイオサイエンス演習

    2023   Intensive lecture   Undergraduate

  • 植物科学英語

    2023   Intensive lecture   Undergraduate

  • 応用生物科学特別研究実験3B

    2023   Intensive lecture   Graduate school

  • 応用生物科学研究プレゼンテーション

    2023   Intensive lecture   Graduate school

  • 細胞生化学

    2022   Weekly class   Undergraduate

  • 植物バイオテクノロジー概論

    2022   Weekly class   Undergraduate

  • 初年次ゼミナール

    2022   Weekly class   Undergraduate

  • 細胞分子生物学特論

    2022   Weekly class   Graduate school

  • 応用生物科学特論

    2022   Weekly class   Graduate school

  • 植物バイオサイエンス卒業研究

    2022   Intensive lecture   Undergraduate

  • 応用生物科学研究プレゼンテーション

    2022   Intensive lecture   Graduate school

  • ゲノム生物学

    2022   Weekly class   Undergraduate

  • 植物バイオサイエンス演習

    2022   Intensive lecture   Undergraduate

  • Invitation to Plant Biosciences

    2021    

  • Research program in Plant Bioscience

    2021    

  • Special Practice in Plant Bioscience

    2021    

  • Fundamental Experiments of Biology

    2021   Practical Training  

  • Fundamental Experiments of Biology

    2021   Practical Training  

  • Genome Biology

    2021    

  • Cellular Biochemistry

    2021    

  • Topics in Molecular and Cellular Biology

    2021    

  • Introduction to Life, Environment, and Advanced Sciences

    2021    

  • Reviews for Applied Life Sciences

    2021    

▼display all

Charge of off-campus class subject

  • Plant Science English

    2018.04
    -
    Now
    Institution:Osaka Prefecture University

  • ゲノム先端科学

    Institution:Nara Institute of Science and Technology

Number of papers published by graduate students

  • 2023

    Number of undergraduate student / college student presentations:Number of graduate students presentations:1

Number of instructed thesis, researches

  • 2024

    Number of instructed the graduation thesis:Number of graduation thesis reviews:2

    [Number of master's thesis reviews] (chief):[Number of master's thesis reviews] (vice-chief):5

  • 2023

    Number of instructed the graduation thesis:Number of graduation thesis reviews:2

    [Number of instructed the Master's Program] (previous term):[Number of instructed the Master's Program] (letter term):0

    [Number of master's thesis reviews] (chief):[Number of master's thesis reviews] (vice-chief):4

    [Number of doctoral thesis reviews] (chief):[Number of doctoral thesis reviews] (vice-chief):0

  • 2022

    Number of instructed the graduation thesis:Number of graduation thesis reviews:3

    [Number of master's thesis reviews] (chief):[Number of master's thesis reviews] (vice-chief):6