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医療人育成センター

鈴木 健史Takeshi Suzuki


プロフィール
 学歴
   1985.3  千葉県立柏高等学校 卒業
   1989.3  明治大学 農学部 卒業
   1991.3  明治大学大学院 農学研究科 修士課程修了,農学修士
   1994.3  東京大学大学院 理学系研究科 生物科学専攻 博士課程修了,博士(理学)

 職歴(常勤)
   1993  日本学術振興会 特別研究員
   1994  群馬大学 生体調節研究所 助手(細胞構造分野)
   2000  群馬大学 医学部 助手(解剖学第一講座)
   2003  群馬大学大学院 医学系研究科 助手-助教-講師(解剖学第一講座)
   2011  札幌医科大学 医療人育成センター 准教授

 職歴(非常勤講師)
   1999-2005  放送大学
   2002      太田医療技術専門学校
   2006      館林高等看護学院
   2010-2011  前橋東看護学校

 在外研究
   2002.7-2003.4  National Jewish Medical & Research Center (Denver, Colorado, USA)
            文部科学省 在外研究員
   2003.5-2004.3  National Jewish Medical & Research Center (Denver, Colorado, USA)
            客員研究員(Guest Scientist)
   2005.7-2008.12 Johns Hopkins University School of Medicine (Baltimore, Maryland, USA)
            客員教員(Guest Faculty; 共同研究は現在も継続中)

専門分野

 研究内容:細胞生物学,バイオイメージング,分子免疫学,分子生物学,組織細胞化学

 教育経験:生物学,細胞生物学,神経解剖学+脳実習,組織学+組織解剖学実習,解剖学+人体解剖実習
      免疫学,生物学実験

 上記の他,植物形態学・植物分子生物学を研究していた時期があり,原生生物から高等植物,人体のしくみにいたる幅広い質問に応えることができます.基礎医学棟6階の生物学教室におりますので,質問のある学生は遠慮なくご訪問ください.(内線は26240です)
 

研究紹介
免疫シナプスにおけるシグナル分子機能動態の研究
 現在,免疫シナプス形成のごく初期過程からシナプス中央部に局在するPKCθ分子に注目して,その分子動態制御機構の解明を目指し,生きた細胞における分子動態を解析するバイオメージングを主体とする研究を続けています.これまでに,免疫シナプスに限局したジアシルグリセロール(DAG)の一過的な出現(DAGスパイク)がPKCθを制御することを突き止め,またDAGスパイクがDAGキナーゼ(DGKα)の局所的な活性化により制御されていることを明らかにしました.
 DAGは,PKCθなどnPKC分子の活性化因子として機能する膜脂質性セカンドメッセンジャーです.しかし,T細胞にはPKCδなどDAGに反応し得る他のnPKCアイソフォームが同時に発現しているため,PKCθのみの選択的な局在化と活性化の仕組みはまったく謎でした.私は,DAGスパイクがPKCθのみの安定的な局在化と活性化を誘引し,他のnPKCアイソフォームの活性化には安定的なDAG発現が必要なことを突き止めました.すなわち,DAGの出現時間の違いによって活性化する分子を選択する分子スィッチの機能を持つことを明らかにしたわけです.
 nPKCはDAGに結合することによって分子展開し活性化すると考えられていますが,DAGの発現時間がごく短時間に限られた場合に,分子活性化が起きるのかどうかに着目した研究はありません.親和性の微妙な違いが局在の強さや活性化の程度に影響し,シグナルカスケードの選択につながるのではないかと漠然と考えられています.しかしこの場合,ブロードな活性化制御となるので,特定の分子の厳密な選択的活性化には何か他の分子機構を考える必要があります.


         免疫シナプスにシグナル分子が集まるようす(みどりに光っている細胞がT細胞)

業 績
学術論文(査読つき)
  1. Masatomo Yamagiwa, Yasuyuki Ozeki, Gen Omura, Takeshi Suzuki, Shin’ichiro Kajiyama, Kiichi Fukui, and Kazuyoshi Itoh. Nonlinear phase imaging using two-beam interferometry in SPE microscopy. Jpn J Appl Phys, 48: 062501, 2009
  2. Haruo Hagiwara, Nobuo Ohwada, Takeo Aoki, Takeshi Suzuki, and Kuniaki Takata. Immunohistochemical and electron microscopic observations of stromal cells in the human oviduct mucosa. Med Mol Molph, 41: 221-226, 2008
  3. Haruo Hagiwara, Nobuo Ohwada, Takeo Aoki, Takeshi Suzuki, and Kuniaki Takata. The primary cilia of secretory cells in the human oviduct mucosa. Med Mol Molph, 41: 193-198, 2008
  4. Abduxukur Ablimit, Takeo Aoki, Toshiyuki Matsuzaki, Takeshi Suzuki, Haruo Hagiwara, Shigeru Takami, and Kuniaki Takata. Immunolocalization of water channel aquaporins in the vomeronasal organ of the rat: Expression of AQP4 in neuronal sensory cells. Chem Senses, 33: 481?488, 2008
  5. Takeshi Suzuki, Toshiyuki Matsuzaki, Haruo Hagiwara, Takeo Aoki, and Kuniaki Takata. Recent advances in fluorescent labeling techniques for fluorescence microscopy. Acta Histochem Cytochem, 40: 131-137, 2007
  6. Takahiro Hasegawa, Toshiyuki Matsuzaki, Yuki Tajika, Abduxukur Ablimit, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Differential localization of aquaporin-2 and glucose transporter 4 in polarized MDCK cells. Histochem Cell Biol, 127: 233-241, 2007
  7. Takeo Aoki, Haruo Hagiwara, Toshiyuki Matsuzazki, Takeshi Suzuki, and Kuniaki Takaka. Internalization of caveolae and their relationship with endosomes in cultured human and mouse endothelial cells. Anat Sci Int, 82; 82-97, 2007
  8. Takeshi Suzuki, Toshiyuki Matsuzaki, Haruo Hagiwara, Takeo Aoki, Yukiko Tajika-Takahashi, and Kuniaki Takata. The apical localization of sodium-dependent glucose transporter SGLT1 is maintained by cholesterol and microtubules. Acta Histochem Cytochem, 39; 155-61, 2006, AHC the Paper of the Year.
  9. Toshiyuki Matsuzaki, Abdushukur Ablimit, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Changes of aquaporin 5-distribution during release and reaccumulation of secretory granules in isoproterenol-treated mouse parotid gland. J Electron Microsc, 55; 183-189, 2006
  10. Haruo Hagiwara, Yuki Tajika, Toshiyuki Matsuzaki, Takeshi Suzuki, Takeo Aoki, and Kuniaki Takata. Localization of Golgi 58K protein (formiminotransferase cyclodeaminase) to the centrosome. Histochem Cell Biol, 126; 251-259, 2006
  11. Yuki Tajika, Toshiyuki Matsuzaki, Takeshi Suzuki, Abdushukur Ablimit, Takeo Aoki, Haruo Hagiwara, Michio Kuwahara, Sei Sasaki, and Kuniaki Takata. Differential regulation of AQP2 trafficking in endosomes by microtubules and actin filaments. Histochem Cell Biol, 124; 1-12, 2005
  12. Toshiyuki Matsuzaki, Natsuko Machida, Yuki Tajika, Abdushukur Ablimit, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Expression and immunolocalization of water channel aquaporins in the rat and mouse mammary gland. Hisochem Cell Biol, 123; 501-512, 2005
  13. Toshiyuki Matsuzaki, Abdushukur Ablimit, Yuki Tajika, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Water channel aquaporin 1 (AQP1) is present in the perineurium and perichondrium. Acta Histochem Cytochem, 38; 37-42, 2005
  14. Kuniaki Takata, Toshiyuki Matsuzaki, Yuki Tajika, Abdushukur Ablimit, Takeshi Suzuki, Takeo Aoki, and Haruo Hagiwara. Aquaporin water channel in the kidney. Acta Histochem Cytochem, 38; 199-207, 2005
  15. Yuki Tajika, Toshiyuki Matsuzaki, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, Michio Kuwahara, Sei Sasaki, and Kuniaki Takata. Aquaporin-2 is retrieved to the apical storage compartment via early endosomes and phosphatidylinositol 3-kinase-dependent pathway. Endocrinology, 145; 4375-4383, 2004
  16. Kuniaki Takata, Yuki Tajika, Toshiyuki Matsuzaki, Takeo Aoki, Takeshi Suzuki, Abdushukur Ablimit, and Haruo Hagiwara. Molecular mechanisms and drug development in aquaporin water channel diseases: Water channel aquaporin 2 (AQP2) of kidney collecting duct cells. J Pharmacol Sci, 96; 255-259, 2004
  17. Kuniaki Takata, Yukiko Takahashi, Toshiyuki Matsuzaki, Yuki Tajika, Takeshi Suzuki, Takeo Aoki, and Haruo Hagiwara. A simple electroporation method for the introduction of plasmids into cells cultured on coverslips for histochemical examination. Acta Histochem Cytochem, 36; 317-323, 2003
  18. Toshiyuki Matsuzaki, Yuki Tajika, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Immunolocalization of water channel, aquaporin-5 (AQP5) in the rat digestive system. Arch Histol Cytol, 66; 307-315, 2003
  19. Yasuo Shinoda, Toshiyuki Matsuzaki, Minako Yokoo-Sugawara, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, Hiroyuki Kuwano, and Kuniaki Takata. Induction and expression of glucose transporters in pancreatic acinar cells by in vitro elecroporation. Acta Histochem Cytochem, 36; 77-82, 2003
  20. Yuki Tajika, Toshiyuki Matsuzaki, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Cryosectioning of cultured cells on permeable support. Acta Histochem Cytochem, 36; 119-122, 2003
  21. Yuki Tajika, Toshiyuki Mastuzaki, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, Shigeyasu Tanaka, Eiki Kominami, and Kuniaki Takata. Immunohistochemical characterization of the intracellular pool of water channel aquaporin-2 in the rat kidney. Anat Sci Int, 77; 189-195, 2002
  22. Saori Okamura, Takeshi Suzuki, Yutaka Miyazawa, Tsuneyoshi Kuroiwa, and Atsushi Sakai. Activation of organelle DNA synthesis during the initial phase of proliferation of BY-2 cultured tobacco cells after medium renewal. Plant Morphology 14; 16-28, 2002
  23. Toshiyuki Matsuzaki, Yuki Tajika, Nomingerel Tserentsoodol, Takeshi Suzuki, Takeo Aoki, Haruo Hagiwara, and Kuniaki Takata. Aquaporins: A water channel family. Anat Sci Int, 77; 85-93, 2002
  24. Takeshi Suzuki, Keiko Fujikura, Haruko Koyama, Toshiyuki Matsuzaki, Yukiko Takahashi, and Kuniaki Takata. The apical localization of SGLT1 glucose transporter is determined by the short amino acid sequence in its Nterminal domain. Eur J Cell Biol, 80; 765-774, 2001
  25. Toshiyuki Matsuzaki, Takeshi Suzuki, and Kuniaki Takata. Hypertonicity-induced expression of aquaporin 3 in MDCK cells. Am J Physiol, 281; C55-C63, 2001
  26. Yasuo Shinoda, Takeshi Suzuki, Minako Sugawara-Yokoo, Shinya Nagamatsu, Hiroyuki Kuwano, and Kuniaki Takata. Expression of sugar transporters by in vitro electroporation and particle gun methods in the rat liver: localization to specific membrane domains. Acta Histochem Cytochem, 34; 15-24, 2001
  27. Takeshi Suzuki, Toshiyuki Matsuzaki, and Kuniaki Takata. Polarized distribution of Na+-dependent glucose cotransporter SGLT1 in epithelial cells. Acta Histochem Cytochem, 33; 159-162, 2000
  28. Toshiyuki Matsuzaki, Takeshi Suzuki, Shigeyasu Tanaka, and Kuniaki Takata. An anti-peptide antibody that recognized unexpected protein - a case report. Acta Histochem Cytochem, 33; 361-365, 2000
  29. Nomingerel Tserentsoodol, Bo-Chul Shin, Haruko Koyama, Takeshi Suzuki, and Kuniaki Takata. Immunolicalization of tight junction proteins, occludin and ZO-1, and glucose transporter GLUT1 in the cells of the blood-nerve barrier. Arch Histol Cytol, 62; 459-469, 1999
  30. Toshiyuki Matsuzaki, Takeshi Suzuki, Haruko Koyama, Shigeyasu Tanaka, and Kuniaki Takata. Water channel protein AQP3 is present in the epitheria exposed to the environment of possible water loss. J Histochem Cytochem, 47; 1275-1286, 1999
  31. Minako Sugawara, Takeshi Suzuki, Toshiyuki Matsuzaki, Takuji Naruse, and Kuniaki Takata. Presence of fructose transporter GLUT5 in the S3 proximal tubules in the rat kidney. Kidney Int, 56; 1022-1028, 1999
  32. Hiroshi Ogihara, Takeshi Suzuki, Yukio Nagamachi, Ken-ichi Inui, and Kuniaki Takata. Peptide transporter in the rat small intestine: Ultrastructural localization and the effect of starvation and administration of amino acids. Histochem J, 31; 169-174, 1999
  33. Atsushi Sakai, Yutaka Miyazawa, Takeshi Suzuki, Narie Sasaki, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. Plastid gene expression during amyloplast formation in cultured tobacco cells. J Plant Physiol, 154; 71-78, 1999
  34. Toshiyuki Matsuzaki, Takeshi Suzuki, Haruko Koyama, Shigeyasu Tanaka, and Kuniaki Takata. Aquaporin-5 (AQP5), a water ahannel protein, in the rat salivary and lacrimal glands: Immunolocalization and effect of secretory stimulation. Cell Tissue Res, 295; 513-521, 1999
  35. Kuniaki Takata, Akiko Iizuka, Takeshi Suzuki, Toshiyuki Matsuzaki, Minako Sugawara, Bo-Chul Shin, Tserentsoodol Nomingerel, and Yasuo Shinoda. Sugar transporters in polarized epithelial cells. Acta Histochem Cytochem, 32; 53-58, 1999
  36. Nomingerel Tserentsoodol, Bo-Chul Shin, Takeshi Suzuki, and Kuniaki Takata. Colocalization of tight junction proteins, occludin, ZO-1, and glucose transporter GLUT1 in cells of the blood-ocular barrier in the mouse eye. Histochem Cell Biol, 110; 543-551, 1998
  37. Takeshi Suzuki, Toshiyuki Matsuzaki, and Kuniaki Takata. Fluorescence counter-staining of cell nuclear DNA for multi-color laser confocal microscopy. Acta Histochem Cytochem, 31; 297-301, 1998
  38. Atsushi Sakai, Takeshi Suzuki, Yutaka Miyazawa, and Tsuneyoshi Kuroiwa. Simultaneous isolation of cell-nuclei, plastid-nuclei and mitochondrial-nuclei from cultured tobacco cells; comparative analysis of their transcriptional activities in vitro. Plant Sci, 133; 17-31, 1998
  39. Atsushi Sakai, Takeshi Suzuki, Yutaka Miyazawa, Shigeyuki Kawano, Toshiyuki Nagata, and Tsuneyoshi Kuroiwa. Comparative analysis of plastid gene expression in tobacco chloroplasts and proplastids: Relationship between transcription and transcript accumulation. Plant Cell Physiol, 39; 581-589, 1998
  40. Takeshi Suzuki, Bo-Chul Shin, Keiko Fujikura, Toshiyuki Matsuzaki, and Kuniaki Takata. Direct gene transfer into rat liver cells by in vivo electroporation. FEBS Letters, 425; 436-440, 1998
  41. Kuniaki Takata, Keiko Fujikura, Masakazu Suzuki, Takeshi Suzuki, and Hiroshi Hirano. GLUT1 glucose transporter in the lactating mammary gland in the rat. Acta Histochem Cytochem, 30; 623-628, 1997
  42. Masakazu Suzuki, Kazumi Kotake, Keiko Fujikura, Nobuya Inagaki, Takeshi Suzuki, Tohru Gonoi, Susumu Seino, and Kuniaki Takata. Kir6.1: a possible subunit of ATP-sensitive K+ channels in mitochondria. Biochem Biophys Res Com, 241; 693-697, 1997
  43. Waka Omata, Hiroshi Shibata, Yoichi Suuki, Shigeyasu Tanaka, Takeshi Suzuki, Kuniaki Takata, and Itaru Kojima. Subcellular distribution of GLUT4 in chinese hamster ovary cells overexpressing mutant dynamin: Evidence that dynamin is a regulatory GTPase in GLUT4 endocytosis. Biochem Biophys Res Com, 241; 401-406, 1997
  44. Atsushi Sakai, Yutaka Miyazawa, Kumiko Yashiro, Takeshi Suzuki, and Shigeyuki Kawano. Amyloplast formation in cultured tobacco cells II: Effects of transcription/ translation inhibitors on accumulation of starch. Cytologia, 62; 295-301, 1997
  45. Toshiyuki Matsuzaki, Takeshi Suzuki, Keiko Fujikura, and Kuniaki Takata. Nuclear staining for laser confocal microscopy. Acta Histochem Cytochem, 30; 309-314, 1997
  46. Bo-Chul Shin, Keiko Fujikura, Takeshi Suzuki, Shigeyasu Tanaka, and Kuniaki Takata. Glucose transporter GLUT3 in the rat placental barrier: A possible machinery for the transplacental transfer of glucose. Endocrinology, 138; 3997-4004, 1997
  47. Ritsuko Koitabashi, Takeshi Suzuki, Tamotsu Kawazu, Atsushi Sakai, Haruko Kuroiwa, and Tsuneyoshi Kuroiwa. 1,8-Cineole inhibits root growth and DNA synthesis in the root apical meristem of Brassica campestris L. J Plant Res, 110; 1-6, 1997
  48. Takeshi Suzuki, Keiko Fujikura and Tetsuya Higashiyama, and Kuniaki Takata. DNA staining for fluorescence and laser confocal microscopy. J Histochem Cytochem, 45; 49-53, 1997
  49. Takeshi Suzuki, Keiko Fujikura, and Kuniaki Takata. Na+-dependent glucose transporter SGLT1 is localized in the apical plasma membrane upon completion of tight junction formation in MDCK cells. Histochem Cell Biol, 106; 529-533, 1996
  50. Takeshi Suzuki, Shigeyuki Kawano, Atsushi Sakai, Atsushi Hirai, and Tsuneyoshi Kuroiwa. Variability of mitochondrial subgenomic molecules in the meristematic cells of higher plants. Gen Genet Sys, 71; 329-333, 1996
  51. Takeshi Suzuki, Atsushi Sakai, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. Organelle DNA synthesis before cell nuclear replication is essential for subsequent cell propagation. Cytologia, 61; 235-245, 1996
  52. Bo-Chul Shin, Takeshi Suzuki, Shigeyasu Tanaka, Akio Kuraoka, Yosaburo Shibata, and Kuniaki Takata. Connexin 43 and glucose transporter GLUT1 in the ciliary body of the rat. Histochem Cell Biol, 106; 209-214, 1996
  53. Bo-Chul Shin, Takeshi Suzuki, Toshiyuki Matsuzaki, Shigeyasu Tanaka, Akio Kuraoka, Yosaburo Shibata, and Kuniaki Takata. Immunolocalization of GLUT1 and connexin 26 in the rat placenta. Cell Tissue Res, 285; 83-89, 1996
  54. Takeshi Suzuki, Narie Sasaki, Atsushi Sakai, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. Localization of organelle DNA synthesis within the root apical meristem of rice. J Exp Botany, 46; 19-25,1995
  55. Narie Sasaki, Takeshi Suzuki, Toshiro Ohta, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. Behavior of mitochondria and their nuclei during amoebae cell proliferation in Physarum polycephalum. Protoplasma, 182; 115-125,1994
  56. Makoto Fujie, Haruko Kuroiwa, Takeshi Suzuki, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. Organelle DNA synthesis in the quiescent centre of Arabidopsis thaliana (Col.). J Exp Botany, 44; 689-693, 1993
  57. Hidenori Takahashi, Kuninori Suzuki, Niji Ohta, Takeshi Suzuki, Hiroyoshi Takano, Shigeyuki Kawano, and Tsuneyoshi Kuroiwa. An electrophoretic karyotype of Cyanidioschizon merolae. Cytrogia, 58; 477-482, 1993
  58. Takeshi Suzuki, Shigeyuki Kawano, Atsushi Sakai, Makoto Fujie, Haruko Kuroiwa, Hiromu Nakamura, and Tsuneyoshi Kuroiwa. Preferential mitochondrial and plasmid DNA synthesis before multiple cell division in Nicotiana tabacum. J Cell Sci, 103; 831-837, 1992
  59. Soichi Nakamura, Tsuyoshi Ikehara, Hidenobu Uchida, Takeshi Suzuki, and Sodmergen. Fluorescence microscopy of plastid nucleus and a survey of nuclease C in higher plants with respect to mode of plastid inheritance. Protoplasma, 169; 68-74, 1992
  60. Sodmergen, Takeshi Suzuki, Shigeyuki Kawano, Soichi Nakamura, Shigemitu Tano, and Tsuneyoshi Kuroiwa. Behavior of organelle nuclei (nucleoids) in generative and vegetative cells during maturation of pollen in Lilium longiflorum and Pelargonium zonale. Protoplasma, 168; 73-82, 1992
  61. Takeshi Suzuki, Shigeru Kazama, Atsushi Hirai, Tomoya Akihama, and Koh-ichi Kadowaki. The rice mitochondrial nad3 gene has an extended reading frame at its 5' end: Nucleotide sequence analysis of rice trnS, nad3, and rps12 genes. Curr Genet, 20; 331-337, 1991
  62. Koh-ichi Kadowaki, Takeshi Suzuki, and Shigeru Kazama. A chimeric gene containing the 5' portion of atp6 is associated with cytoplasmic male-sterility of rice. Mol Gen Genet, 224; 10-16, 1990
  63. Shigeru Kazama, Takeshi Suzuki, Koh-ichi Kadowaki, and Tomoya Akihama. Nucleotide sequence of the F0-ATPase subunit 9 gene from tomato mitochondria. Nucleic Acids Res, 18; 5879, 1990
  64. Koh-ichi Kadowaki, Shigeru Kazama, and Takeshi Suzuki. Nucleotide sequence of the F1-ATPase alpha subunit gene from rice mitochondria. Nucleic Acids Res, 18; 1302, 1990
  65. Koh-ichi Kadowaki, Takeshi Suzuki, Shigeru Kazama, Teppei Oh-fuchi, and Wataru Sakamoto. Nucleotide sequence of the cytochrome oxidase subunit I gene from rice mitochondria. Nucleic Acids Res, 17; 7519, 1989

学術論文(査読なし)
  1. 鈴木健史,高田邦昭.デコンボリューション顕微鏡法.顕微鏡,41(2),120-123, 2006
  2. 鈴木健史,松崎利行,高田邦昭.共焦点顕微鏡活用法.Surgery Frontier, 12(4), 82-85, 2005
  3. Kuniaki Takata, Takeshi Suzuki, Toshiyuki Matsuzaki, Nomingerel Tserentsoodol, Yuki Tajika, Yasuo Shinoda, Haruo Hagiwara, and Takeo Aoki. Glucose transporters - Localization to specific membrane domains.  電子顕微鏡 36; 23-25, 2001
  4. 鈴木健史.上皮細胞におけるナトリウムイオン依存型糖輸送体SGLT1の頂部細胞膜局在機構.北関東医学,50: 399-401, 2000
  5. 高田邦昭,鈴木健史,飯塚晶子,藤倉恵子,松崎利行,小山晴子,犬飼浩一,浅野知一郎.上皮細胞における細胞膜糖輸送体の局在機構.電子顕微鏡, 33; 157-160, 1998
  6. 高田邦昭,Bo-Chul Shin,藤倉恵子,鈴木雅一,鈴木健史.ラット胎盤の糖輸送機構.Mebio, 15(No.7); 95-97, 1998
  7. 高田邦昭,藤倉恵子,鈴木雅一,鈴木健史.乳腺の糖輸送体.Mebio, 15(No.5); 91-93, 1998
  8. 鈴木健史,松崎利行,高田邦昭.レーザー共焦点顕微鏡法における蛍光抗体染色と核酸対比染色.日本比較内分泌学会ニュース,87; 21-26, 1997
  9. 高田邦昭,Bo-Chul Shin,藤倉恵子,田中滋康,松崎利行,鈴木健史.胎盤と物質輸送.産科と婦人科,63; 1347-1352, 1996
  10. 高田邦昭,Bo-Chul Shin,鈴木健史,松崎利行.ギャップ結合と糖輸送.Mebio, 12(No.11); 149-151, 1995
  11. 鈴木健史,黒岩常祥.オルガネラゲノムからみた細胞の増殖.植物細胞工学,4; 405-415, 1992
  12. 鈴木健史.組織細胞内におけるオルガネラDNA合成部位の検出法.植物細胞工学, 4; 416-417, 1992

著書
  1. 鈴木健史.バイオイメージングで知っておきたい顕微鏡の基礎.組織細胞化学会編.組織細胞化学2012,2012,in press
  2. 鈴木健史.共焦点および蛍光顕微鏡を使いこなす基礎知識.組織細胞化学会編.組織細胞化学2011,103-115, 2011
  3. Haruo Hagiwara, Takeo Aoki, Takeshi Suzuki, and Kuniaki Takata. Pre-embedding immunoelectron microscopy of chemically fixed mammalian tissue culture cells. In: Immunoelectron microscopy, Methods in Molecular Biology 657, Schwartzbach and Osafune (eds), 145-154, Springer Science+Business Media, New York, 2010
  4. Haruo Hagiwara, Takeo Aoki, Takeshi Suzuki, and Kuniaki Takata. Double-label immunoelectron microscopy for studying the colocalization of proteins in cultured cells. In: Immunoelectron microscopy, Methods in Molecular Biology 657, Schwartzbach and Osafune (eds), 249-257, Springer Science+Business Media, New York, 2010
  5. 鈴木健史,高田邦昭.蛍光タンパク質の基礎と実際.組織細胞化学会編.組織細胞化学2008,101-109, 2008
  6. 鈴木健史,高田邦昭.ボケを除く処理 - デコンボリューション顕微鏡法.染色・バイオイメージング実験ハンドブック.高田邦昭、川上速人、斎藤尚亮 編,287-292,羊土社,2006
  7. 鈴木健史,高田邦昭.画像処理の原理と実際.わかる実験医学シリーズ「バイオイメージングがわかる」.高松哲郎 編,83-96, 羊土社,2005
  8. 鈴木健史,高田邦昭.デコンボリューション顕微鏡法.実験医学別冊,注目のバイオ実験シリーズ 「初めてでもできる共焦点顕微鏡で活用プロトコール」.高田邦昭 編, 192-195,羊土社,2004
  9. 鈴木健史,高田邦昭.多細胞化へのみち-細胞接着の細胞生物学.生物の科学「遺伝」,別冊14号,細胞のミクロコスモス−進化とゲノムからその素顔にせまる−.157-165, 2002
  10. 青木武生,松崎利行,鈴木健史,萩原治夫,多鹿友喜,高田邦昭.蛍光抗体法−基礎から多重染色まで。組織細胞化学2002,日本組織細胞化学会編,学際企画,東京,33-41,2002
  11. 萩原治夫,青木武生,鈴木健史,松崎利行,高田邦昭.免疫電顕法−どんな時にどの方法を使うか−組織細胞化学2002,日本組織細胞化学会編,学際企画,東京,53-64,2002
  12. 高田邦昭,松崎利行,鈴木健史,青木武生,萩原治夫,藤倉恵子.免疫組織化学の基礎的手順−抗体入手から検鏡まで.組織細胞化学2001,日本組織細胞化学会編,学際企画,東京,80-87,2001
  13. Toshiyuki Matsuzaki, Takeshi Suzuki, and Kuniaki Takata. Water channel protein, aquaporin 3, in epithelial cells. In: Molecular biology and physiology of water and solute transport. Hohmann and Neilsen (eds) , Kluwer Academic/Plenum Publishers, New York, 167-172, 2000
  14. 高田邦昭,松崎利行,菅原-横尾美奈子,鈴木健史.未知の抗体を使っての染色の進め方.日本組織細胞化学会編,組織細胞化学 2000,80-87, 2000
  15. 高田邦昭,鈴木健史.細胞への遺伝子導入と組織化学.日本組織細胞化学会編,組織細胞化学 1999,186-193, 1999
  16. 高田邦昭,Bo-Chul Shin,鈴木健史,藤倉恵子.蛍光抗体法.日本組織細胞化学会編,組織細胞化学 1996,107-113, 1996


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