研究業績

(1)原著論文 (最近のものから示しています)

  • Hiroguchi, A., Nakamura, K. and Fujita, T. (2022) Abscisic acid switches cell division modes of asymmetric cell division and symmetric cell division in stem cells of protonemal filaments in the moss Physcomitrium patens. Plant Biotechnology, (in press)
  • Bao, L., Inoue, N., Ishikawa, M., Gotoh, E., Teh, O.-K., Higa, T., Morimoto, T., Ginanjar, E.F., Harashima, H., Noda, N., Watahiki, M., Hiwatashi, Y., Sekine, M., Hasebe, M., Wada, M. and Fujita, T. (2022) A PSTAIRE-type cyclin-dependent kinase controls light responses in land plants. Science Advances, 8, eabk2116, DOI: 10.1126/sciadv.abk2116 (open access)
  • Ginanjar, F.E., Teh, O.-K., and Fujita, T. (2022) Characterisation of Rapid Alkalinisation Factors (RAFLs) in Physcomitrium patens Reveals Functional Conservation in Tip Growth. The New Phytologist, 233, 2442-2457. DOI: https://doi.org/10.1111/nph.17942
  • Wakabayashi, H., Matsuda, O., Fujita, T. and Kume A. (2021) Practical application of proximal sensing for monitoring the growth of Physcomitrium patensBiological Sciences in Space, 35, 32-40.
  • Kusnandar, AS., Ito, J., Sato, Y., Honda, E., Hibara, K., Kyozuka, J., and Naramoto S. (2021) NARROW AND DWARF LEAF 1, the Orthologue of Arabidopsis ENHANCER OF SHOOT REGENERATION1/DORNRÖSCHEN, Mediates Leaf Development and Maintenance of the shoot Apical Meristem in Oryza sativa LPlant Cell Physiol in press https://doi.org/10.1093/pcp/pcab169
  • Kume, A., Kamachi, H., Onoda, Y., Hanba, T.Y., Hiwatashi, Y., Karahara, I., and Fujita T. (2021) How plants grow under gravity conditions besides 1 g: Perspectives from hypergravity and space experiments that employ bryophytes as a model organism. Plant Molecular Biology, 107, 279–291. DOI: https://doi.org/10.1007/s11103-021-01146-8
  • Kameo, S., Aso, M., Furukawa, R., Matsumae, R., Yokono, M., Fujita, T., Tanaka, A., Tanaka, R., and Takabayashi, A. (2021) Substitution of deoxycholate with the amphiphilic polymer amphipol A8-35 improves the stability of large protein complexes during native electrophoresis. Plant and Cell Physiology, 62, 348-355. DOI: 10.1093/pcp/pcaa165
  • Mizuno, Y., Komatsu, A., Shimazaki, S., Naramoto, S., Inoue, K., Xie, X., Ishizaki, K., Kohchi, T., and Kyozuka, J. (2021) Major components of the KARRIKIN INSENSITIVE2-dependent signaling pathway are conserved in the liverwort Marchantia polymorphaPlant Cell 31: 1918-1930. https://doi.org/10.1016
  • Glanc, M., Van Gelderen, K.,  Hoermayer, L.,  Tan, S., Naramoto, S., Zhang, X., Domjan, D., Včelařová, L., Hauschild, R., Johnson, A., de Koning, E., Van Dop, M., Rademacher, E., Janson, S., Wei, X., Molnár, G., Fendrych, M., De Rybel, B., Offringa, R., and Friml, J. (2021) AGC kinases and MAB4/MEL proteins maintain PIN polarity by limiting lateral diffusion in plant cells. Current Biology 31: 1918-1930. https://doi.org/10.1016/j.cub.2021.02.028
  • Kawade, K., Horiguchi, G., Hirose, Y., Oikawa, A., Hirai, M.Y., Saito, K., Fujita, T., and Tsukaya, H. (2020) Metabolic Control of Gametophore Shoot Formation through Arginine in the Moss Physcomitrium patens. Cell Reports, 32, 108127. DOI: doi.org/10.1016/j.celrep.2020.108127.
  • Li, H., Wangenheim, D., Zhang, X., Tan, S., Darwish‐Miranda, N., Naramoto, S., Wabnik, K., Rycke, R.D., Kaufmann, W.A., Gütl, D., Tejos, R., Grones, P., Ke, M., Chen, X., Dettmer, J., Friml, J. (2020) Cellular requirements for PIN polar cargo clustering in Arabidopsis thaliana New Phytologist 229: 351-369 https://doi.org/10.1111/nph.16887
  • Wachananawat, B. Kuroha, T., Takenaka, Y., Kajiura, H., Naramoto, S., Yokoyama, R.,  Ishizaki, K., Nishitani, K., and Ishimizu, T. (2020) Diversity of Pectin Rhamnogalacturonan I Rhamnosyltransferases in Glycosyltransferase Family 106.Frontiers in Plant Science 11, https://doi.org/10.3389/fpls.2020.00997
  • Do. T-.H., Pongthai P., Ariyarathne, M., Teh, O.-K., and Fujita, T. (2020) AP2/ERF transcription factors regulate salt-induced chloroplast division in the moss Physcomitrella patens. Journal of Plant Research, 133, 537-548. DOI: https://doi.org/10.1007/s10265-020-01195-y.
  • Tomoi, T., Kawade, K., Kitagawa, M., Sakata, Y., Tsukaya, H., and Fujita, T. (2020) Quantitative imaging reveals distinct contributions of SnRK2 and ABI3 in plasmodesmatal permeability in Physcomitrella patens. Plant and Cell Physiology, 61: 942-956, DOI: 10.1093/pcp/pcaa021.
  • Furukawa, R., Aso M, Fujita, T., Akimoto, S., Tanaka, R., Tanaka, A., Yokono, M., and Takabayashi, A. (2019) Formation of a PSI-PSII megacomplex containing LHCSR and PsbS in the moss Physcomitrella patens. Journal of Plant Research, 132: 867-880, DOI: 10.1007/s10265-019-01138-2
  • Yokono, M., Takabayashi, A., Kishimoto, J., Fujita, T., Iwai, M., Murakami, A., Akimoto, S., Tanaka, A. (2019) The PSI-PSII megacomplex in green plants.  Plant and Cell Physiology, 60:1098-1108, pcz026, https://doi.org/10.1093/pcp/pcz026.
  • Kitagawa, M., Tomoi, T., Fukushima, T., Sakata, Y., Sato, M., Toyooka, K., Fujita, T., Sakakibara, H. (2019) Abscisic Acid Acts as a Regulator of Molecular Trafficking through Plasmodesmata in the Moss Physcomitrella patens. Plant and Cell Physiology, 60 (4), 738-751,  https://doi.org/10.1093/pcp/pcy249.
  • Perroud, P.-F., Haas, F., Hiss, M., Ullrich, K., Alboresi, A., Amirebrahimi, M., Barry, K., Bassi, R., Bonhomme, S., Chen, H., Coates, J., Fujita, T., Guyon-Debast, A., Lang D., Lin, J., Lipzen, A., Nogué, F., Oliver, M., de León, I.-P., Quatrano, R., Rameau, C., Reiss, B., Reski, R., Ricca, M., Saidi, Y., Sun, N., Szövényi, P. Sreedasyam, A., Grimwood, J., Stacey, G., Schmutz, J., Rensing, S. (2018) The Physcomitrella patens gene atlas project: large scale RNA-seq based expression data. Plant Journal, 95, 168-182, DOI: 10.1111/tpj.13940.
  • Takemura, K., Watanabe, R., Kameishi R., Sakaguchi, N., Kamachi, H., Kume, A., Karahara, I., Hanba, Y.-T., and Fujita, T. (2017) Hypergravity of 10g changes plant growth, anatomy, chloroplast size, and photosynthesis in the moss Physcomitrella patens. Microgravity Science and Technology, 29, 467-473, DOI:10.1007/s12217-017-9565-6.
  • Mori, A., Kamachi, H., Karahara, I., Kume, A., Hanba, Y.-T., Takemura, K. and Fujita, T. (2017) Comparisons of the effects of vibration of two centrifugal systems on the growth and morphological parameters of the moss Physcomitrella patens. Biological Sciences in Space, 31, 9-13, https://doi.org/10.2187/bss.31.9.
  • Fukushima, K., Fang, X., Alvarez-Ponce, D., Cai, H., Carretero-Paulet, L., Chen, C., Chang, H.-H., Farr, K., Fujita, T., Hiwatashi, Y., Hoshi, Y., Imai, T., Kasahara, M., Librado, P., Mao, L., Mori, H., Nishiyama, T., Nozawa, M., Pálfalvi, G., Pollard, S., Rozas, J., Sánchez-Gracia, A., Sankoff, D., Shibata, T., Shigenobu, S., Sumikawa, N., Uzawa, T., Xie, M., Zheng, C., Pollock, D., Albert, V., Li, S., and Hasebe, M. (2017) The pitcher plant Cephalotus genome reveals genetic changes associated with carnivory. Nature Ecology and Evolution, 1, 0059. DOI:10.1038/s41559-016-0059.
  • Yokota, T., Ohnishi, T., Shibata, K., Asahina, M., Nomura, T., Fujita, T., Ishizaki, K., and Kohchi, T. (2017)  Occurrence of brassinosteroids in non-flowering land plants, liverwort, moss, lycophyte and fern. Phytochemistry, 136, 46-55.
  • Takabayashi, A., Takabayashi, S., Takahashi, K., Watanabe, M., Uchida, H., Murakami, A., Fujita, T., Ikeuchi M., and Tanaka, A. (2017)  PCoM-DB update: a protein co-migration database for photosynthetic organisms. Plant and Cell Physiology, 58, e10. DOI: 10.1093/pcp/pcw219.
  • Takemura, K., Kamachi, H., Kume, A., Fujita, T., Karahara, I., and Hanba, Y.-T. (2017)  A hypergravity environment increases chloroplast size, photosynthesis, and plant growth in the moss Physcomitrella patens. Journal of Plant Research, 130, 181-192. DOI: 10.1007/s10265-016-0879-z.   2018 JPR Best Paper Award  (open access)
  • Bao, L., Yamamoto, T. K. and Fujita, T. (2015)  Phototropism in gametophytic shoots of the moss Physcomitrella patens. Plant Signaling and Behavior, 10. e1010900-1-6. DOI: 10.1080/15592324.2015.1010900.
  • Fujita, T. (2015) Plasmodesmata: function and diversity in plant intercellular communication. Journal of Plant Research, 128, 3-5. DOI: 10.1007/s10265-014-0697-0.
  • Kitagawa, M., and Fujita, T. (2015) A model system for analyzing intercellular communication through plasmodesmata using moss protonemata and leaves. Journal of Plant Research, 128, 63-72. DOI: 10.1007/s10265-014-0690-7.         JPR15Cover
  • Ito, K., Ren, J., and Fujita, T. (2014) Conserved function of Rho-related Rop/RAC GTPase signaling in regulation of cell polarity in Physcomitrella patens. Gene, 544, 241-247, (DOI: 10.1016/j.gene.2014.04.057).
  • Kitagawa, M., and Fujita, T. (2013) Quantitative imaging of directional transport through plasmodesmata in moss protonemata via single-cell photoconversion of Dendra2. Journal of Plant Research, 126, 577-585, (DOI : 10.1007/s10265-013-0547-5).   2014 JPR Best Paper Award  (open access)
  • Banks, J.A., Nishiyama, T., Hasebe, M., Bowman, J.L., Gribskov, M., dePamphilis, C., Albert, V.A., Aono, N., Aoyama, T., Ambrose, B.A., Ashton, N.W., Axtell, M.J., Barker, E., Barker, M.S., Bennetzen, J.L., Bonawitz, N.D., Chapple, C., Cheng, C., Correa, L.G.G., Dacre, M., DeBarry, J., Dreyer, I., Elias, M., Engstrom, E.M., Estelle, M., Feng, L., Finet, C., Floyd, S.K., Frommer, W.B., Fujita, T., Gramzow, L., Gutensohn, M., Harholt, J., Hattori, M., Heyl, A., Hirai, T., Hiwatashi, Y., Ishikawa, M., Iwata, M., Karol, K.G., Koehler, B., Kolukisaoglu, U., Kubo, M., Kurata, T., Lalonde, S., Li, K., Li, Y., Litt, A., Lyons, W., Manning, G., Maruyama, T., Michael, T.P., Mikami, K., Miyazaki, S., Morinaga, S., Murata, T., Mueller‐Roeber, B., Nelson, D.R., Obara, M., Oguri, Y., Olmstead, R.G., Onodera, N., Petersen, B.L., Pils, B., Prigge, M., Rensing, S.A., Ria?o-Pach?n, D.M., Roberts, A.W., Sato, Y., Scheller, H.V., Schulz, B., Schulz, C., Shakirov, E.V., Shibagaki, N., Shinohara, N., Shippen, D.E., S?rensen, I., Sotooka, R., Sugimoto, N., Sugita, M., Sumikawa, N., Tanurdzic, M., Thei?en, G., Ulvskov, P., Wakazuki, S., Weng, J.-K., Willats, W.W.G.T., Wipf, D., Wolf, P.G., Yang, L., Zimmer, A.D., Zhu, Q., Mitros, T., Hellsten, U., Loque D., Otillar, R., Salamov, A., Schmutz, J., Shapiro, H., Lindquist, E., Lucas, S., Rokhsar, D., Grigoriev, I.V. (2011) The Selaginella Genome Identifies Genetic Changes Associated with the Evolution of Vascular Plants. Science, 332, 960-963.
  • Fujita, T., and Hasebe, M. (2009) Convergences and divergences in polar auxin transport and shoot development in land plant evolution. Plant Signaling & Behavivor, 4, 313-315. (Article Addenda).
  • Oda, Y., Hirata, A., Sano, T., Fujita, T., Hiwatashi, Y., Sato Y., Kadota, A., Hasebe, M., and Hasezawa, S. (2009) Microtubules regulate dynamic organization of vacuoles in Physcomitrella patens. Plant and Cell Physiology, 50, 855-868.
  • Hiwatashi, Y., Obara, M., Sato, Y., Fujita, T., Murata, T., and Hasebe, M. (2008) Kinesins are indispensable for interdigitation of phragmoplast microtubules in the moss Physcomitrella patens. Plant Cell, 20, 3094-3106.
    Plant Cell
  • Inouye T., Odahara M., Fujita T., Hasebe M., Sekine Y. (2008) Expression and complementation analyses of a chloroplast-localized homolog of bacterial RecA in the moss Physcomitrella patens. Biosci. Biotechnol. Biochem., 72, 1340-1347.
  • Fujita, T., Sakaguchi, H., Hiwatashi, H., Wagstaff, S.J., Ito, M., Deguchi, H., Sato, T., Hasebe, M. (2008) Convergent evolution of shoots in land plants: lack of auxin polar transport in moss shoots. Evolution and Development, 10, 176-186.
  • S.A. Rensing, D. Lang, A. Zimmer, A. Terry, A. Salamov, H. Shapiro, T. Nishiyama, P.-F. Perroud, E. Lindquist, Y. Kamisugi, T. Tanahashi, K. Sakakibara, T. Fujita, K. Oishi, T. Shin-I, Y. Kuroki, A. Toyoda, Y. Suzuki, S.-i. Hashimoto, K. Yamaguchi, S. Sugano, Y. Kohara, A. Fujiyama, N. Ashton, A. Anterola, S. Aoki, W.B. Barbazuk, E. Barker, J. Bennetzen, R. Blankenship, S. H. Cho, S. Dutcher, M. Estelle, J.A. Fawcett, H. Gundlach, K. Hanada, A. Heyl, K.A. Hicks, J. Hughes, M. Lohr, K. Mayer, A. Melkozernov, T. Murata, D. Nelson, B. Pils, M. Prigge, B. Reiss, T. Renner, S. Rombauts, P. Rushton, A. Sanderfoot, G. Schween, S.-H. Shiu, K. Stueber, F.L. Theodoulou, H. Tu, Y. Van de Peer, P.J. Verrier, E. Waters, A. Wood, L. Yang, D. Cove, A.C. Cuming, M. Hasebe, S. Lucas, B.D. Mishler, R. Reski, I. Grigoriev, R.S. Quatrano, J.L. Boore, (2008) The genome of the moss Physcomitrella patens reveals evolutionary insights into the conquest of land by plants. Science, 319, 64-69.
  • Odahara M., Inouye T., Fujita T., Hasebe M., Sekine Y. (2007) Involvement of mitochondrial-targeted RecA in the repair of mitochondrial DNA in the moss, Physcomitrella patens. Genes Genet. Syst., 82, 43-51.
  • Terakura S., Kitakura S., Ishikawa M., Ueno Y., Fujita T., Machida C., Wabiko H., Machida Y. (2006) Oncogene 6b from Agrobacterium tumefaciens induces abaxial cell division at late stages of leaf development and modifies vascular development in petioles. Plant and Cell Physiology, 47, 664-672.
  • M. Machida, K. Takechi, H. Sato, S.J. Chung, H. Kuroiwa, S. Takio, M. Seki, K. Shinozaki, T. Fujita, M. Hasebe, H. Takano (2006) Genes for the peptidoglycan synthesis pathway are essential for chloroplast division in moss. Proc. Natl. Acad. Sci. U.S.A. 103, 6753-6758.
  • A. Hayashida, K. Takechi, M. Sugiyama, M. Kubo, R.D. Itoh, S. Takio, T. Fujita, Y. Hiwatashi, M. Hasebe and H. Takano (2005) Isolation of mutant lines with decreased numbers of chloroplasts per cell from a tagged mutant library of the moss Physcomitrella patens. Plant Biology, 7, 300-306.
  • H. Eda, Y. Ishii, M. Obayashi, S. Harada, S. Ito, T. Fujita, M. Ikeda, S. Kusano, R. Kitamura, C. Suzuki, T. Hara, M. Watanabe, H. Satoh, K. Sugihara and K. Yanagi (2005) Monoclonal antibodies against regions topologically surrounding the homodimeric b-barrel interface of Epstein-Barr virus nuclear antigen-1. Virus Research, 109. 87-94.
  • T. Nishiyama*, T. Fujita, T. Shin-I, M. Seki, H. Nishide, I. Uchiyama, A. Kamiya, P. Carninci, Y. Hayashizaki, K. Shinozaki, Y. Kohara andM. Hasebe (2003) Comparative genomics of Physcomitrella patens gametophytic transcriptome and Arabidopsis thaliana: Implication for land plant evolution. Proc. Natl. Acad. Sci. U.S.A., 100, 8007-8012. (equal contribution)
  • T. Fujita, A. Maggio, M. Garcia-Rios, C. Stauffacher, R.A. Bressan L.N. and Csonka (2003) Identification of regions of the tomato γ-glutamyl kinase that are involved in allosteric regulation by proline. J. Biol. Chem., 278, 14203-14210.
  • A. Maggio, S. Miyazaki, P. Veronese, T. Fujita, J.I. Ibeas, B. Damsz, M.L. Narasimhan, P.M. Hasegawa, R.J. Joly and R.A. Bressan (2002) Does proline accumulation play an active role in stress-induced growth reduction? Plant J., 31, 699-712.
  • S. Kitakura, T. Fujita, Y. Ueno, S. Terakura, H. Wabiko, and Y. Machida (2002) The protein encoded by oncogene 6b from Agrobacterium tumefaciens interacts with a putative transcription factor in tobacco cells. Plant Cell, 14, 451-463.
  • Y.Hiwatashi, T.Nishiyama, T. Fujita and M.Hasebe (2001) Establishment of gene-trap and enhancer-trap systems in the moss Physcomitrella patens. Plant J., 28, 105-116.
  • T. Fujita, M.Ikeda, S.Kusano, M.Yamazaki, S.Ito, M.Obayashi and K.Yanagi (2001) Amino acid substitution analyses of the DNA contact region, two amphipathic a-helices and a recognition-helix-like helix outside the dimeric b-barrel of Epstein-Barr virus nuclear antigen 1. Intervirology, 44, 271-282.
  • R. Salzman, T. Fujita, K. Zhu-Salzman, M. Hasegawa and R.A. Bressan (1999) An improved RNA isolation method for plant tissues containing high levels of phenolic compounds or carbohydrates. Plant Mol. Biol. Reptr., 17, 11-17.
  • T. Fujita, A. Maggio, M. Garcia-Rios, R.A. Bressan and L.N. Csonka (1998) Comparative analysis of the regulation of expression and structures of two evolutionarily divergent genes for Δ1-pyrroline-5-carboxylate synthetase from tomato. Plant Physiol., 118, 661-674.
  • M. Garcia-Rios*, T. Fujita, P. Christopher R.D. LaRosa, Locy, J.M. Clithero, R.A. Bressan and L.N. Csonka (1997) Cloning of a polycistronic cDNA from tomato encoding γ-glutamyl kinase and g-glutamyl phosphate reductase. Proc. Natl. Acad. Sci. U.S.A., 94, 8249-8254. (equal contribution)
  • A. Maggio, M. Garcia-Rios, T. Fujita, R.A. Bressan, R.J. Joly, P.M. Hasegawa and L.N. Csonka (1996) Cloning of tomPRO1 and tomPRO2 from Lycopersicon esculentum L.: coexistence of polycistronic and monocistronic genes which encode the enzymes catalyzing the first two steps of proline biosynthesis. Plant Physiol., 112, 862.
  • S. Aoki, A. Kawaoka, M. Sekine, T. Ichikawa, T. Fujita, A. Shinmyo and K. Syono (1994) The sequence of cellular T-DNA in the untransformed genome of Nicotiana glauca that is homologous to ORFs 13 and 14 of the Ri plasmid and the analyses of the expression of the cellular genes in genetic tumors of N. glauca x N. langsdorffii. Mol. Gen. Genet., 243, 706-710.
  • T. Fujita, H. Kouchi, T. Ichikawa and K. Syono (1994) Cloning of cDNAs for genes that are specifically or preferentially expressed during the development of tobacco genetic tumors. Plant J., 5, 645-654.
  • T. Fujita, H. Kouchi, T. Ichikawa and K. Syono (1993) Isolation and characterization of a cDNA that encodes a novel proteinase inhibitor I from a tobacco genetic tumor. Plant Cell Physiol., 34, 137-142.
  • T. Fujita, T. Ichikawa and K. Syono (1991) Changes in morphology, leveles of endogenous IAA and protein composition in relation to the development of tobacco genetic tumor induced in the dark. Plant Cell Physiol., 32, 169-177.

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(2)総説論文

(3)著書など

  • Fujita, T., Nogué, F., Rensing, S.A., Takezawa, D. and Vidali L. (2021) Molecular biology of mosses. Plant Mol Biol. 107, 209–211 (2021). https://doi.org/10.1007/s11103-021-01218-9 (open access)
  • 藤田知道, 久米篤, 蒲池浩之, 小野田雄介, 半場祐子, 日渡祐二, 唐原一郎, (2020) 1gとは異なる重力環境で植物はどのように育つのだろうか -コケ植物を用いた宇宙実験(スペース・モス)から期待できること- BSJ-Review 11, 60-74.  (DOI: 10.24480/bsj-review.11a6.00178)
  • 藤田 知道 共生と競争の狭間で:植物の声を聞いてみる (2020) 特集「30年後の植物科学」植物科学の最前線(BSJ-Review)発行10周年記念 (公社)日本植物学会 電子出版物編集委員会 (http://bsj.or.jp/jpn/general/bsj-review-10th/BSJ-review_10th_Fujita.pdf)
  • Bao L., Yamamoto K.T., Fujita T., (2019) An experimental system for examining phototropic response of gametophytic shoots in the moss Physcomitrella patens. Methods in Molecular Biology, 1924, 45-51. doi: 10.1007/978-1-4939-9015-3_5  (Humana Press, New York, NY, Editorial: K. Yamamoto)
  • 横野牧生、高林厚史、 岸本純子、 藤田知道、 岩井優和、 村上明男、 秋本誠志、 田中歩  (2018)「緑色植物のPSI-PSII超複合体」光合成研究 28(1)、 p.14-18.
  • 唐原一郎、玉置大介、久米篤、蒲池浩之、半場祐子、藤田知道(2017)「植物栽培における重力環境制御の基礎」アグリバイオ 10月号、1巻、p.1172-1175。
  • 櫻井英博、柴岡弘郎、高橋陽介、小関良宏、藤田知道 (2017) 植物生理学概論 改訂版  (培風館)。
  • Takemura, K., Watanabe, R., Kameishi, R., Sakaguchi, N., Kamachi, H., Kume, A., Fujita, T., Karahara, I., and Hanba, Y.-T. (2017) Hypergravity environment of 10 G changes plant growth, anatomy, chloroplast sizes and photosynthesis of the moss Physcomitrella patens. In Proceedings of 11th Asian Microgravity Symposium (International Journal of Microgravity Science and Application (IJMSA)).
  • 藤田知道 (2009)植物の事典(石井龍一、岩槻邦男、長谷部光泰、矢澤進、矢原徹一、和田正三 編)「細胞極性、不等分裂」(朝倉書店)。
  • 藤田知道(2009)植物ゲノム科学辞典(駒嶺穆、町田泰則、藤村達人、田畑哲之、三位正洋、斉藤和季 編)(朝倉書店)。
  • 藤田知道(2007)動・植物における分化全能性(研究代表者:原田宏)「ヒメツリガネゴケを使って分化全能性制御からボディープランの理解へ」高等研報告書0704、(国際高等研究所学術出版)、pp.77-80。
  • 長谷部光泰、藤田知道、倉田哲也、佐藤良勝、久保稔、村田隆、青山剛士、三上浩司、石川雅樹、日渡祐二、青野直樹、篠原直貴、西山智明、棚橋貴子(2007)植物細胞工学シリーズ23、植物の進化 「発生遺伝子の進化」(秀潤社)、163-173 。
  • 藤田知道(2006)植物の生長調節 「ヒメツリガネゴケを用いた植物幹細胞の不等分裂過程の解析-細胞極性形成から娘細胞の運命決定まで-」(植物化学調節学会)41巻 pp.156-162。
    ヒメツリガネゴケを用いた植物幹細胞の不等分裂過程の解析-細胞極性形成から娘細胞の運命決定まで-
  • 藤田知道(2006)植物ホルモンの分子細胞生物学 (小柴共一、神谷勇治、勝見允行 編)「セン類、タイ類の植物ホルモン」(講談社サイエンティフィク)pp.202-209。
  • T. Fujita, T. Nishiyama, Y. Hiwatashi and M. Hasebe (2004) Gene tagging, gene- and enhancer-trap systems, and full-length cDNA overexpression in Physcomitrella patens. In New Frontiers in Bryology:Physiology, Molecular Biology & Functional Genomics (eds. by Wood, AJ., Oliver, MJ. and Cove, DJ.), Kluwer Academic Publishers, Netherlands, pp. 111-132.
  • 藤田知道(2004)植物細胞工学シリーズ20、新版植物ホルモンのシグナル伝達 「植物ホルモンの起源を探る-シダ植物,コケ植物,緑色藻類における植物ホルモンの役割から-」秀潤社、頁233-238。
  • 藤田知道 (2001) 第17回国際植物生長物質会議に参加して 植物の生長調節 36巻 (No.2)。
  • 藤田知道(2000)3度のポスドク体験から 学術月報 53巻、頁167-168.
  • K. Syono and T. Fujita (1994) Habituation as a tumorous state that is interchangeable with a normal state in plant cells. In International Review of Cytology (eds. by Jeon, K. W. and Jarvik J.), 152, pp.265-299, Academic Press, California.
  • 藤田知道(1994)タバコ遺伝的腫瘍の腫瘍形成に関わる遺伝子の検索 植物組織培養、11巻、頁171-177。
  • 藤田知道 (1994) DNA複製機構の解明に向けてーDNA腫瘍ウイルスの手助けー 生物工学会誌、72巻、頁323。
  • K. Syono, T. Ichikawa and T. Fujita (1992) Tumorization-redifferentiation system of tobacco genetic tumor. In Proceedings of the VII international symposium in conjunction with the awarding of the international prize for biology (Shibaoka, H., ed). pp. 93-100.

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