研究業績



    ここには以下の順で業績が書かれています。

  英文原著論文
  中国語原著論文(来日外国人研究者による)
  英文総説
  邦文総説
  著書
  最近1年間の学会発表、講演等




英文原著論文

 

  1. Cho, T., Ishii-Kato, A. Fukata, Y., Nakayama, Y., Iida, K., Fukata, M., and Iida, H. (2016) Coupling of a voltage-gated Ca2+ channel homolog with a plasma membrane H+-ATPase in yeast. Genes to Cells 22, 94-104.

  2. Kamano, S., Kume, S., Iida, K., Lei, K.-J., Nakano, M., Nakayama, Y., and Iida, H. (2015) Transmembrane topologies of Ca2+-permeable mechanosensitive channels MCA1 and MCA2 in Arabidopsis thalianaJ. Biol. Chem. 290, 30901-30909. First Published on November 10, 2015, doi:10.1074/jbc.M115.692574

  3. Ohnishi, M., Kadohama, N., Suzuki, Y., Kajiyama, T., Shichijo, C., Ishizaki, K., Fukaki, H., Iida, H., Kambara, H., and Mimura, T. (2015) Involvement of Ca2+ in vacuole degradation caused by a rapid temperature decrease in Saintpaulia palisade cells: A case of gene expression analysis in a specialized small tissue. Plant Cell Physiol. 56, 1297-1305. doi:10.1093/pcp/pcv048
  4. Nakayama, Y., Hirata, A., and Iida, H. (2014) Mechanosensitive channels Msy1 and Msy2 are required for maintaining organelle integrity upon hypoosmotic shock in Schizosaccharomyces pombe. FEMS Yeast Res. doi: 10.1111/1567-1364.12181.

  5. Shigematsu, H., Iida, K., Nakano, M., Chaudhuri, P., Iida, H.*, and Nagayama, K.* (2014) Structural Characterization of the Mechanosensitive Channel Candidate MCA2 from Arabidopsis thaliana. PLOS ONE, 9(1) e87724. doi:10.0371/journal. pone. 0087724. *Co- corresponding author
  6. Nakayama, Y.*, Yoshimura, K., and Iida, H.* (2013) Electrophysiological characterization of the mechanosensitive channel MscCG in Corynebacterium glutamicum. Biophys. J. 105, 1366-1375. doi:10.1016/j.bpj.2013.06.054. *Co- corresponding author

  7. Teng, J., Iida, K., Imai, A., Nakano, M., Tada, T., and Iida, H. (2013) Hyperactive and hypoactive mutations in Cch1, a yeast homologue of the voltage-gated calcium-channel pore-forming subunit. Microbiology 159, 970-979.
  8. Nakayama, Y*., Yoshimura, K., and Iida H*. (2012) Organellar mechanosensitive channels in fission yeast regulate the hypo-osmotic shock response. Nat. Commun. doi: 10.1038/ncomms2014. *Co-corresponding author

  9. Furuichi, T., Iida, H., Sokabe, M., and Tatsumi, H. (2012) Expression of Arabidopsis MCA1 enhanced mechanosensitive channel activity in the Xenopus laevis oocyte plasma membrane. Plant Signal. Behav. 7 1022-1026.doi:10.4161/psb.20783

  10. Nakayama, Y*., Yoshimura, K., and Iida H*. (2012) A gain-of-function mutation in gating of Corynebacterium glutamicum NCCgl1221 causes constitutive glutamate secretion. Appl. Environ. Microb. 78, 5432-5434. doi:10.1128/AEM.01310-12.
    *Co-corresponding author

  11. Kurusu, T., Iida, H., and Kuchitsu, K. (2012) Roles of a putative mechanosensitive plasma membrane Ca2+-permeable channel OsMCA1 in generation of reactive oxygen species and hypo-osmotic signaling in rice. Plant Signal. Behav. 7 796-798. doi:10.4161/psb.20521

  12. Zanni, E., Franco, M., Nakano, M., Iida, H., Palleschi, C., and Uccelletti, D. (2012) KlMID1, a relevant key player between ER homeostasis and mitochondrial dysfunction in Kluyveromyces lactis. Microbiology 158, 1694-1701.doi:10.1099/mic.0.056283-0.

  13. Kurusu T, Nishikawa D, Yamazaki Y, Gotoh M, Nakano M, Hamada H, Yamanaka T, Iida K, Nakagawa Y, Saji H, Shinozaki K, Iida H, Kuchitsu K. (2012)  Plasma membrane protein OsMCA1 is involved in regulation of hypo-osmotic shock-induced Ca2+ influx and modulates generation of reactive oxygen species in cultured rice cells. BMC Plant Biol. 12:11. doi:10.1186/1471-2229-12-11.

  14. Kurusu, T.*, Yamanaka, T.*, Nakano, M., Takiguchi, A., Ogasawara, Y., Hayashi, T., Iida, K., Hanamata, S., Shinozaki, K., Iida, H., and Kuchitsu, K. (2011) Involvement of the putative Ca2+-permeable mechanosensitive channels, NtMCA1 and NtMCA2, in Ca2+ uptake, Ca2+- dependent cell proliferation and mechanical stress-induced gene expression in tobacco (Nicotiana tabacum) BY-2 cells. J. Plant Res. 125, 555-568. doi:10.1007/s10265-011-0462-6.
    *Both authors contributed equally to this work.

  15. Nakano, M., Iida, K., Nyunoya, H., and Iida, H. (2011) Determination of structural regions important for Ca2+ uptake activity in Arabidopsis MCA1 and MCA2 expressed in yeast. Plant Cell Physiol. 52, 1915-1930. doi:10.1093/pcp/pcr131.

  16. Fujiu, K., Nakayama, Y., Iida, H., Sokabe, M., and Yoshimura, K. (2011) Mechanoreception in motile flagella of Chlamydomonas. Nat. Cell Biol. 13, 630-633. doi:10.1038/ncb2214

  17. Yamanaka, T.*, Nakagawa, Y.*, Mori, K.*, Nakano, M., Imamura, T., Kataoka, H., Terashima, A., Iida, K., Kojima, I., Katagiri, T., Shinozaki, K., and Iida, H. (2010) MCA1 and MCA2 that mediate Ca2+ uptake have distinct and overlapping roles in Arabidopsis. Plant Physiol. 152, 1284-1296. doi:10.1104/pp.109.147371.
    *These authors contributed equally to this work.

  18. Teng, J., Iida, K., Ito, M., Izumi-Nakaseko, H., Kojima, I., Adachi- Akahane, S.*, and Iida, H.* (2010) Role of glycine residues highly conserved in the S2-S3 linkers of domains I and II of voltage-gated calcium channel α1 subunits. Biochim. Biophys. Acta-Biomembr. 1798, 966-974. doi:10.1016/j.bbamem.2010.01.004.
    *Co-corresponding author

  19. Teng, J.*, Goto, R.*, Iida, K., Kojima, I., and Iida, H. (2008) Ion-channel blocker sensitivity of voltage-gated calcium-channel homologue Cch1 in Saccharomyces cerevisiae. Microbiology 154, 3775-3781. doi:10.1099/mic.0.2008/021089-0.
    *Both authors contributed equally to this work.

  20. Iida, K.*, Teng, J.*, Tada, T., Saka, A., Tamai, M., Izumi-Nakaseko, H., Adachi-Akahane, S., and Iida, H. (2007) Essential, completely conserved glycine residue in the domain Ⅲ S2-S3 linker of voltage-gated calcium channel α1 subunits in yeast and mammals. J. Biol. Chem. 282, 25659-25667.
    *Both authors contributed equally to this work.

  21. Nakagawa, Y., Katagiri, T., Shinozaki, K., Qi, Z., Tatsumi, H., Furuichi, T., Kishigami, A., Sokabe, M., Kojima, I., Sato, S., Kato, T., Tabata, S., Iida, K., Terashima, A., Nakano, M., Ikeda, M., Yamanaka, T., and Iida, H. (2007) Arabidopsis plasma membrane protein crucial for Ca2+ influx and touch sensing in roots. Proc. Natl. Acad. Sci. USA 104, 3639-3644.

  22. Noma, S., Iida, K., and Iida, H. (2005) Polarized morphogenesis regulator Spa2 is required for the function of putative stretch-activated Ca2+-permeable channel component Mid1 in Saccharomyces cerevisiae. Eukaryot. Cell 4, 1353-1363.

  23. Ozeki-Miyawaki, C., Moriya, Y., Tatsumi, H., Iida, H., and Sokabe, M. (2005) Identification of functional domains of Mid1, a stretch-activated channel component, necessary for localization to the plasma membrane and Ca2+ permeation. Exp. Cell Res. 311, 84-95.

  24. Hashimoto, K., Saito, M., Iida, H., and Matsuoka, H. (2005) Evidence for the plasma membrane localization of a putative voltage-dependent Ca2+ channel, OsTPC1, in rice.  Plant Biotechnol. 22, 235-239.

  25. Qi, Z., Kishigami, A., Nakagawa, Y., Iida, H., and Sokabe, M. (2004) A mechanosensitive anion channel in Arabidopsis thaliana mesophyll cells. Plant Cell Physiol. 45, 1704-1708.

  26. Iida, K., Tada, T., and Iida, H. (2004) Molecular cloning in yeast by in vivo homologous recombination of the yeast putative a1 subunit of the voltage-gated calcium channel.  FEBS Lett. 576, 291-296.

  27. Hashimoto, K., Saito, M., Matsuoka, H., Iida, K., and Iida, H. (2004) Functional analysis of a rice putative voltage-dependent Ca2+ channel, OsTPC1, expressed in yeast cells lacking its homologous gene CCH1. Plant Cell Physiol. 45, 496-500.

  28. Tada, T., Ohmori, M., and Iida, H. (2004) Phe356 in the yeast Ca2+ channel omponent Mid1 is a key residue for viability after exposure to α-factor. Biochem. Biophys. Res. Commun. 313, 752-757.

  29. Yoshimura, H., Tada, T., and Iida, H. (2004) Subcellular localization and oligomeric structure of the yeast putative stretch-activated Ca2+ channel component Mid1. Exp. Cell Res. 293, 185-195.

  30. Abe, F., and Iida, H. (2003) Pressure-induced differential regulation of the two tryptophan permeases Tat1 and Tat2 by ubiquitin ligase Rsp5 and its binding proteins Bul1/Bul2.  Mol. Cell. Biol. 23, 7566-7584.

  31. Tada, T., Ohmori, M., and Iida, H. (2003) Molecular dissection of the hydrophobic segments H3 and H4 of the yeast Ca2+ channel component Mid1. J. Biol. Chem. 278, 9647-9654.

  32. Pinontoan, R., Krystofova, S., Kawano, T., Mori, I. C., Tsuji, F. I., Iida, H., and Muto, S. (2002) Phenylethylamine induces an increase in cytosolic Ca2+ in yeast. Biosci. Biotechnol. Biochem. 66, 1069-1074.

  33. Maruoka, T., Nagasoe, Y., Inoue, S., Mori, Y., Goto, J., Ikeda, M., and Iida, H. (2002) Essential hydrophilic carboxyl-terminal regions including cysteine residues of the yeast stretch-activated calcium-permeable channel Mid1. J. Biol. Chem. 277, 11645-11652.

  34. Tasaka, Y., Nakagawa, Y., Sato, C., Mino, M., Uozumi, N., Murata, N., Muto, S., and Iida, H. (2000) yam8+, a Schizosaccharomyces pombe gene, is a potential homologue of the Saccharomyces cerevisiae MID1 gene encoding a stretch-activated Ca2+-permeable channel. Biochem. Biophys. Res. Commun. 269, 265-269.

  35. Nakajima-Shimada, J., Sakaguchi, S., Anraku, Y., and Iida, H. (2000) Ca2+ signal is generated only once in the mating pheromone response pathway in Saccharomyces cerevisiae. Cell Struct. Funct. 25, 125-131.

  36. Kanzaki, M., Nagasawa, M., Kojima, I., Sato, C., Naruse, K., Sokabe, M., and Iida, H. (1999) Molecular identification of a eukaryotic, stretch-activated nonselective cation channel. Science 285, 882-886; Report clarification. Science 288, 1374.

  37. Mori, I. C., Iida, H., Tsuji, F. I., Uozumi, N., and Muto, S. (1998) Salicylic acid induces a cytosolic Ca2+ elevation in yeast. Biosci. Biotech. Biochem. 62, 986-989.

  38. Sakaguchi, S., Shibuya, K., Iida, H., Anraku, Y., and Suzuki, T. (1997) Roles of Ca2+ in hyphal and yeast-form growth in Candida albicans.  Growth regulation by altered extracullular and intracellular free Ca2+ concentrations. Mycoscience 38, 215-225.

  39. Sakaguchi, S., Miyamoto, S., Iida, H., Suzuki, T., Ohya, Y., and Anraku, Y. (1995) Overproduction of Cdc24p (Cls4p), a guanine nucleotide-exchange factor toward Cdc42p GTPase, impairs initiation of budding in Saccharomyces cerevisiae. Protoplasma 189, 142-148.

  40. Tanida, I., Hasegawa, A., Iida, H., Ohya, Y., and Anraku, Y. (1995) Cooperation of calcineurin and vacuolar H+-ATPase in intracellular Ca2+ homeostasis of yeast cells. J. Biol. Chem. 270, 10113-10119.

  41. Iida, H., Ohya, Y., and Anraku, Y. (1995) Calmodulin-dependent protein kinase II and calmodulin are required for induced thermotolerance. Curr. Genet. 27, 190-193.

  42. Ono, T., Suzuki, T., Anraku, Y., and Iida, H. (1994) The MID2 gene encodes a putative integral membrane protein with a Ca2+-binding domain and shows mating pheromone-stimulated expression in Saccharomyces cerevisiae. Gene 151, 203-208.

  43. Iida, H., Nakamura, H., Ono, T., Okumura, M. S., and Anraku, Y. (1994) MID1, a novel Saccharomyces cerevisiae gene encoding a plasma membrane protein, is required for Ca2+ influx and mating. Mol. Cell. Biol. 14, 8259-8271.

  44. Nakajima-Shimada, J., Iida, H., Anraku, Y., and Aoki, T. (1994) Determination of intracellular calcium concentration of individual host cells infected with Trypanosoma cruzi using microfluorimetry in conjunction with digital image processing. Jpn. J. Parasitol. 43, 136-139.

  45. Saran, S., Nakao, H., Tasaka, M., Iida, H., Tsuji, F. I., Nanjundiah, V., and Takeuchi, I. (1994) Intracellular free calcium level and its response to cAMP stimulation in developing Dictyostelium cells transformed with jellyfish apoaequorin cDNA. FEBS Lett. 337, 43-47.

  46. Mineyuki, Y., Iida, H., and Anraku, Y. (1994) Loss of microtubules in the interphase cells of onion root tips from the cell cortex and their appearance in the cytoplasm after treatment with cycloheximide. Plant Physiol. 104, 281-284.

  47. Miyamoto, S., Ohya, Y., Sano, Y., Sakaguchi, S., Iida, H., and Anraku, Y. (1991) A DBL-homologous region of the yeast CLS4/CDC24 gene product is important for Ca2+-modulated bud assembly. Biochem. Biophys. Res. Commun. 181, 604-610.

  48. Ohya, Y., Umemoto, N., Tanida, I., Ohta, A., Iida, H., and Anraku, Y. (1991) Calcium-sensitive cls mutants of Saccharomyces cerevisiae showing a Pet- phenotype are ascribable to defects of vacuolar membrane H+-ATPase activity. J. Biol. Chem. 266, 13971-13977.

  49. Nakajima-Shimada, J., Iida, H., Tsuji, F. I., and Anraku, Y. (1991) Monitoring of intracellular calcium in Saccharomyces cerevisiae using an apoaequorin cDNA expression system. Proc. Natl. Acad. Sci. USA 88, 6878-6882.

  50. Nakajima-Shimada, J., Iida, H., Tsuji, F. I., and Anraku, Y. (1991) Galactose-dependent expression of the recombinant Ca2+-binding photoprotein aequorin in yeast. Biochem. Biophys. Res. Commun. 174, 115-122.

  51. Iida, H., Sakaguchi, S., Yagawa, Y., and Anraku, Y. (1990) Cell cycle control by Ca2+ in Saccharomyces cerevisiae. J. Biol. Chem. 265, 21216-21222.
  52. Iida, H., Yagawa, Y., and Anraku, Y. (1990) Essential role for induced Ca2+ influx followed by [Ca2+]i rise in maintaining the viability of yeast cells late in the mating pheromone response pathway: A study of [Ca2+]i in single Saccharomyces cerevisiae cells with imaging of fura-2. J. Biol. Chem. 265, 13391-13399.

  53. Iida, H. (1988) Multistress resistance in Saccharomyces cerevisiae is generated by insertion of retrotransposon Ty into the 5' coding region of the adenylate cyclase gene. Mol. Cell. Biol. 8, 5555-5560.

  54. Verma, R., Iida, H., and Pardee, A. B. (1988) Modulation of expression of the stress-inducible p118 of Saccharomyces cerevisiae by cAMP. II. A study of p118 expression in mutants of the cAMP cascade. J. Biol. Chem. 263, 8576-8582.

  55. Verma, R., Iida, H., and Pardee, A. B. (1988) Identification of a novel stress-inducible glycoprotein in Saccharomyces cerevisiae. I. Preliminary characterization. J. Biol. Chem. 263, 8569-8575.

  56. Handa, H., Toda, T., Tajima, M., Wada, T., Iida, H., and Fukasawa, T. (1987) Expression of the human adenovirus E1a product in yeast. Gene 58, 127-136.

  57. Shin, D., Matsumoto, K., Iida, H., Uno, I., and Ishikawa, T. (1987) Heat shock response of yeast mutants altered in cAMP-dependent protein phosphorylation. Mol. Cell. Biol. 7, 244-250 .

  58. Yahara, I., Iida, H., and Koyasu, S. (1986) A heat shock-resistant variant of Chinese hamster cell line constitutively expressing heat shock protein of Mr 90,000 at high level. Cell Struct. Funct. 11, 65-73.

  59. Iida, K., Iida, H., and Yahara, I. (1986) Heat shock-induction of intracellular actin rods in cultured mammalian cells. Exp. Cell Res.165, 207-215.

  60. Iida, H., and Yahara, I. (1985) Yeast heat-shock protein of Mr 48,000 is an isoprotein of enolase. Nature 315, 588-590.

  61. Iida, H., and Yahara, I. (1984) A heat shock-resistant mutant of Saccharomyces cerevisiae shows constitutive synthesis of two heat shock proteins and altered growth. J. Cell Biol. 99, 1441-1450.

  62. Iida, H., and Yahara, I. (1984) Durable synthesis of high molecular weight heat shock proteins in G0 cells of the yeast and higher eucaryotes. J. Cell Biol. 99, 199-207.

  63. Iida, H., and Yahara, I. (1984) Specific early-G1 blocks accompanied with stringent response in Saccharomyces cerevisiae lead to growth arrest in resting state similar to the G0 of higher eucaryotes. J. Cell Biol. 98, 1185-1193.

  64. Kumagai, J., Akiyama, H., Iwashita, S., Iida, H., and Yahara, I. (1981) In vitro regeneration of resting lymphocytes from stimulated lymphocytes and its inhibition by insulin. J. Immunol. 126, 1249-1254.

  65. Iida, H., Ikehara, K., and Okada, Y.(1979)  Differential transcription of fd RFI DNA by Caulobacter crescentus and Escherichia coli RNA polymerases. FEBS Lett. 99, 346-350.

  66. Fukuda, A., Miyakawa, K., Iida, H., and Okada, Y. (1976) Regulation of polar surface structures in Caulobacter crescentus: Pleiotropic mutations affect the coordinate morphogenesis of flagella, pili and phage receptors. Mol. Gen. Genet. 149, 167-173.



中国語原著論文


  1. 雷凱健、飯田秀利(2009)Topology analysis of integral membrane proteins by using TEV protease [Article in Chinese]. Chinese J. Biochem. Mol. Biol. 25, 1053-1057.



英文総説


  1. Nakayama, Y., and Iida, H. (2014) Organellar mechanosensitive channels involved in hypo-osmoregulation in fission yeast. Cell Calcium, 56(6) 467-71 doi:10.1016/j.ceca.2014.10.001.
  2. Iida, H. (2014) Mugifumi, a beneficial farm work of adding mechanical stress by treading to wheat and barley seedlings. Front. Plant Sci. 5 doi: 10.3389/fpls.2014.00453

  3. Tatsumi, H, Furuichi, T., Nakano, A., Toyoda, M., Hayakawa, K., Sokabe, M., and Iida, H. (2014) Mechanosensitive channels are activated by stress in the actin stress fibers, and could be involved in gravity sensing in plants. Plant Biol.(Stuttg) 16 (Suppl. 1) 18-22 doi: 10.1111/plb.12095.

  4. Iida, H., Furuichi, T., Nakano, M., Toyota, M., Sokabe, M., and Tatsumi, H. (2014) New candidates for mechanosensitive channels potentially involved in gravity sensing in Arabidopsis thaliana. Plant Biol (Stuttg). 16 (Suppl. 1) 39-42 doi: 10.1111/plb.12044.

  5. Kurusu, T., Kuchitsu, K., Nakano, M., Nakayama, Y., and Iida, H. (2013) Plant mechanosensing and Ca2+ transport. Trends Plant Sci., http://dx.doi.org/10.1016/j.tplants.2012.12.002
  6. Anraku, Y., Ohya, Y., and Iida, H. (1991) Cell cycle control by calcium and calmodulin in Saccharomyces cerevisiae. Biochim. Biophys. Acta 1093, 169-177.

  7. Yahara, I., Koyasu, S., Iida, K., Iida, H., Matsuzaki, F., Matsumoto, S., and Miyata, Y.  (1991) Cell growth, cytoskeleton, and heat shock proteins. In Results and Problems in Cell Differentiation, Heat Shock and Development (eds., L. Hightower and L. Nover) Spring-Verlag, Heidelberg, pp. 210-216.



邦文総説


  1. 飯田秀利、中山義敬 「明らかになった機械受容チャネルの新しいはたらき」新学術領域研究「植物の環境感覚:刺激受容から細胞応答まで」News Letter “Perspective Plants” Vol. 5, p. 13, 2013

  2. 中山 義敬、吉村 建二郞. 運動能と機械受容能を併せもつ鞭毛の発見. 実験医学29,羊土社  pp2275-2277 (9月号) (2011)

  3. 飯田秀利、岸上明生、多田智子、中川祐子、山中拓哉. 植物のCa2+チャネル.杉山達夫、水野 猛、長谷俊治、斉藤和季 編 蛋白質核酸酵素増刊号「植物の代謝コミュニケーション-植物分子生理学の新展開」共立出版, 48, 2061-2067 (2003).

  4. 飯田秀利. 酵母と植物の機械受容チャネル.植物細胞工学シリーズ,18号「植物細胞で働くポンプ、タランスポーター、チャネル研究の新展開」秀潤社 pp. 181-184 (2003).

  5. 飯田秀利、小島 至、佐籐主税、曽我部正博. カルシウム透過性機械受容チャネル.生体の科学, 51, 543-548 (2000).

  6. 小島 至、飯田秀利、佐籐主税、曽我部正博. 真核細胞でも発見された圧力センサー:機械的刺激を細胞内Ca2+の変化として変換.生物と化学, 38, 350-351 (2000)
    .
  7. 飯田秀利、小島 至、佐籐主税、曽我部正博. 伸展活性化Ca2+透過性チャネルMid1の遺伝子の単離と機能解析.医学のあゆみ, 192, 1211-1215 (2000).

  8. 小島 至、飯田秀利、曽我部正博、佐籐主税. 伸展活性化Ca2+透過性チャネルMid1. 細胞工学, 18, 1669-1671 (1999).

  9. 飯田秀利. Ca2+による遺伝子発現と細胞分裂の制御.御子柴克彦,遠藤 実,宮本英七 編 蛋白質核酸酵素 増刊号「カルシウムイオンとシグナル伝達」共立出版, 43, 1821-1828 (1998).

  10. 飯田秀利. 出芽酵母におけるCa2+シグナル.西本毅治,東江昭夫,桂勲,柳田充弘 編 蛋白質核酸酵素 増刊号「細胞周期制御の分子機構」共立出版, 41, 1704-1711 (1996).

  11. 飯田秀利. 免疫組織化学研究法―エピトープ・タギング法を中心として―. 日本臨床54, 155-160 (1996).

  12. 飯田秀利. 接合因子とカルシウムによる細胞分化制御.大隅正子,山口英世編 「第11回酵母合同シンポジウム 酵母研究のフロントライン―生命科学・医学・産業へのインパクト―」酵母細胞研究会,19-26 (1994).  

  13. 飯田秀利,小野智子,奥村万樹子. 酵母におけるCa2+と細胞周期制御.東江昭夫,高木正道,下田 親 編 蛋白質核酸酵素 増刊号「酵母における最新の真核生物像」共立出版,39, 412-419 (1994).

  14. 嶋田淳子,飯田秀利. 細胞周期制御とカルシウムイオン―リコンビナント・エクオリンの応用と解析―.Clinical Calcium3, 1457-1461 (1993).

  15. 飯田秀利. Ca2+による細胞増殖の制御.矢原一郎,御子柴克彦,月田承一郎 編  Annual Review 細胞生物学,中外医学社,pp. 259-270 (1993).

  16. 飯田秀利. カルシウムによる細胞周期の制御.佐方功幸編「特集 細胞の増殖と成長因子」細胞24, 283-287 (1992).

  17. 飯田秀利,安楽泰宏. 酵母におけるCa2+動態と生理機能の解明.Plant Science Tomorrow, 3, 19 (1991).

  18. 飯田秀利,嶋田淳子. 発光タンパク質を用いたカルシウムシグナリングの測定―バイオテクノーによる新展開―.BIOmedica, 6, 923-927 (1991).

  19. 飯田秀利. カルシウムとG1制御.山本正幸,長濱嘉孝,岡山博人 編『実験医学』増刊号「細胞周期―増殖・分化・癌化の視点から」羊土社.pp. 51-58 (1990)

  20. 飯田秀利. 細胞内遊離Ca2+の動態と細胞増殖の制御 遺伝,43,pp. 10-15 (1989).

  21. 飯田秀利. Cold Spring Harbor Laboratory 「Heat Shock」ミ-ティング見聞記.蛋白質核酸酵素31, 463-466 (1986)

  22. 飯田秀利. 熱ショックタンパク質の分子生物学.生化学57, 1282-1289 (1985).

  23. 飯田秀利. 熱ショックタンパク質.Radioisotopes, 34, 58 (1985).

  24. 飯田秀利. 細胞増殖制御における熱ショックタンパク質の役割.組織培養11, 180-185 (1985).

  25. 飯田秀利,矢原一郎. 熱ショック蛋白質と増殖制御. 特集「細胞増殖因子と発癌遺伝子」.医学のあゆみ133, 964-971 (1985).

  26. 飯田秀利. Heat-shockタンパク質:その合成制御と機能.生化学55, 302-309 (1983).

  27. 飯田秀利,矢原一郎. Heat-shock蛋白質.医学のあゆみ121, 176-177 (1982).



著書(すべて分担執筆)


  1. 植物ゲノム科学事典 駒嶺穆 総編集 朝倉書店,(2009)

  2. 分子細胞生物学辞典 第2版 村松正実,篠崎一雄,清水孝雄,谷口 克,月田承一郎,西村善文,林崎良英,御子柴克彦,柳田充弘,米田悦敬 編集.東京化学同人,(2008) 
  3. 飯田秀利,イオン輸送系とイオンホメオスタシス,大隈良典,下田親 編 「酵母のすべてー系統,細胞から分子まで」 シュプリンガー・フェアラーク東京,pp. 189-194 (2007)
    .
  4. 飯田秀利. 細胞内pH測定法.井出利憲 編 「生物薬科学実験講座 III 細胞の増殖と成長因子」広川書店,pp. 357-362 (2004).
  5. 飯田秀利. カルシウム動員の測定.井出利憲 編 「生物薬科学実験講座 III 細胞の増殖と成長因子」広川書店,pp. 348-356 (2004).

  6. 飯田秀利. 接触刺激とCa2+透過チャネル.岡 穆宏、岡田清孝、篠崎一雄 編 「植物の環境応答と形態形成のクロストーク」シュプリンガ-・フェアラーク東京,pp. 189-197 (2004).

  7. 飯田秀利. オジギソウは何故葉を閉じるのかー植物の感覚の世界への小旅行ー.明日を拓く植物科学,クバプロ, pp. 104-114 (2002)
    .
  8. 生化学辞典 第3版今堀和友,山川民夫  監修.東京化学同人,(1998).

  9. 飯田秀利. 蛍光を用いた解析―概説.日本生化学会(水島昭二,田川邦夫,安楽泰宏,二井将光,永井克孝)編 「新生化学実験講座 第6巻 生体膜と膜輸送」下巻, 東京化学同人,pp. 857-861 (1992)
  10. 飯田秀利. 細胞内遊離Ca2+濃度の測定法.日本生化学会(水島昭二,田川邦夫, 安楽泰宏,二井将光,永井克孝「新生化学実験講座 第6巻  生体膜と膜輸送」下巻,東京化学同人,pp. 869-880 (1992)
  11. 生化学辞典 第2版今堀和友,山川民夫  監修.東京化学同人,(1990).

  12. 飯田秀利. 細胞内遊離Ca2+濃度の測定法開発と生理機能研究への応用.倉石 衍  編「酵母の研究技術の新展開」学会出版センター,pp. 139-150 (1991)
  13. 飯田秀利. 熱ショックタンパク質.日本アイソト-プ協会 編「アイソト-プを利用したライフサイエンスの歩み」丸善, p. 28 (1988).

  14. 飯田秀利,矢原一郎. 細胞増殖制御における熱ショックタンパク質の役割.永井  進  編「酵母の細胞工学と育種」.学会出版センタ-,pp. 243-262 (1986).

  15. 飯田秀利.カルシウム動員の測定.井出利憲 編 「生物薬化学実験講座 Ⅲ 細胞の増殖と成長因子」 広川書店,pp.348-356(2004)

  16. 生化学辞典今堀和友,山川民夫 監修.東京化学同人,(1984).



 最近2年間の学会発表、講演等


  1. 東條宏史、中村あき、アリ・フェルジャニ、風間裕介、阿部知子、飯田秀利
    根の貫入が不可能な硬さの培地の表面で生き残れるシロイヌナズナ突然変異株のスクリーニング
    第58回日本植物生理学会年会
    鹿児島市、2017年3月18日

  2. Iida, H.
    Mechanosensing in plants.
    The 3rd Annual Meeting of the Society for Bioacoustics.
    Irago-cho, Tahara-shi, Aichi, Japan. December 10-11, 2016.

  3. 木村 緑、飯田和子、飯田秀利
    電位作動性Ca2+チャネルα1サブユニットの出芽酵母ホモログCch1のドメインⅢ内変異の網羅的解析
    第39回日本分子生物学会年会
    横浜市、2016年12月1日

  4. 長 敏彦、飯田和子、飯田秀利
    出芽酵母のCa2+チャネルサブユニットMid1のN末端配列とシグナル配列非依存的な小胞体内腔への輸送
    第38回日本分子生物学会年会・第88回日本生化学会大会合同大会
    神戸市、2015年12月3日

  5. Iida, H.
    Molecular aspects of mechanosensitive channels in plants
    8th Plant Biomechanics International Conference
    Nagoya, 30 Nov 2015     (招待講演)

  6. Nakamura, A. and Iida, H.
    Identification of proteins that potentially interact with Ca2+-permeable mechanosensitive channels MCA1 and MCA2 in Arabidopsis
    8th Plant Biomechanics International Conference
    Nagoya, 30 Nov 2015

  7. 飯田秀利
    新規の抗真菌剤開発につながる出芽酵母のMid1/Cch1 Ca2+チャネルの基礎研究
    第189回酵母細胞研究会例会
    東京都、2015年11月27日(招待講演)

  8. 飯田秀利
    メカノシステムバイオロジー: 植物における機械刺激受容
    総合研究大学院大学 統合生命科学教育プログラム
    岡崎市、2015年11月5日(集中講義)

  9. 長 敏彦、飯田和子、飯田秀利
    Ca2+チャネルサブユニットMid1のシグナル配列非依存的な小胞体内腔への輸送
    酵母遺伝学フォーラム第48回研究報告会
    広島市、2015年8月31日~9月2日

  10. 細見 昭、飯田和子、飯田秀利、鈴木 匡
    シグナルペプチド非依存的な小胞体へのタンパク質輸送
    酵母遺伝学フォーラム第48回研究報告会
    広島市、2015年8月31日~9月2日



    以上