Reviews

[2012] [2011] [2010] [2009] [2008] [2007] [2006-2001] [2000-1995]

2012

  1. T.Shimanouchi,N.Kitaura, H. Umakoshi,R. Kuboi,Amyloid Formation on Artificial Biomembrane,Surface Science (Hyomen Kagaku),33(1), 40-46 (2012)
  2. T.Shimanouchi,Membranomics Research Using Immobilized Liposome Technique,Biophysics (Seibutsu Buturi),52 (7), in press (2012)
  3. H.Umakoshi Innovative Biotechnology Based on Membranome [特集:Special Issue on NEXT Chemical Engineering], Chemical Engineering (Kagaku Kogaku), 76(4), in press (2012) (Figure was selected as Top-page Image of this issue)

2011

  1. T.Shimanouchi,Engineering Science of Biomembrane-Mediated Crystallization,Membrane(Maku),36(5), 233-239 (2011)(in Japanese)

2010

  1. Hiroshi Umakoshi, Toshinori Shimanouchi, Ryoichi Kuboi, Development of LIPOzymes Based on Biomembrane Process Chemistry, in “Pharmaceutical Process Chemistry (Ed. T. Shioiri, K. Izawa, and T. Kono-ike)”(Wiley Interscience) (2010)
  1. T.Shimanouchi, H. Umakoshi, R. Kuboi, N. Yoshimoto, Effect of Membrane Property on Mass Transfer across Liposome Membrane (in Japanese), Kagaku Kougaku Symp. Series(Chemical Engineering Symposium Series), 81, 31-33 (2010)
  2. H.Umakoshi, Chemical Engineering from My View (in Japanese), Kagaku Kougaku (Chemical Engineering), 74(1), 31-33 (2010)
  3. H. Umakoshi, Protein Recognition by Stressed Liposome - for Creation of Novel Materials by Employing Liposome as One Unit- (in Japanese), Maku (Membrane), 35(5), 209-260 (2010)

2009

  1. H.Umakoshi, Engineering Science Study on the Creation of LIPOzyme Process Chemistry (in Japanese), Maku (Membrane), 34(4), 179-185 (2009)
  2. H.Umakoshi, T. Shimanouchi, R. Kuboi, Membrane Stress Biotechnology and Diagonistics of Alzheimer Disease (in Japanese), Bunri Gijutu (Separation Technology), 39(2), 109-114 (2009)

2008

  1. H.Umakoshi, T.Shimanouchi, Souyaku Souyakujin (Medicinal Chemistry and Medicinal Chemists)(Interview)(in Japanese),Pharm. Tech., 24(9), 2020-2021 (2008)
  2. H.Umakoshi, Editor's Comment (Special Issue on "Membrane Stress Biotechnology") (in Japanese), Maku (Membrane), 33(6), 321 (2008)
  3. R.Kuboi, H.Umakoshi, T.Shimanouchi, Cutting Edge of Membrane Stress Biotechnology (in Japanese), Maku (Membrane), 33(6), 300-306 (2008)
  4. R.Kuboi, H.Umakoshi, T.Shimanocuhi, New Aspects of Membrane Stress Biotechnology (MSB) (in Japanese),Pharm. Tech., 24(8), 1573-1575 (2008)

2007

  1. R.Kuboi, H.Umakoshi, T.Shimanouchi, Immobilized Liposome Sensor and Its Application to Membrane Diseases (in Japanese), Maku (Membrane), 32(1), 32-39 (2007)

2006-2001

  1. H.Umakoshi, M.Yoshimoto, R.Kuboi, Artificial Chaperone Liposome(Chapter 8, Section 10)(in Japanese),Extention of Liposome Application (NTS Publication), 461-470 (2005)
  2. R.Kuboi, H.Umakoshi, Artificial Enzyme Liposome (Chapter 8, Section 3) (in Japanese),Extention of Liposome Application (NTS Publication), 396-406 (2005)
  3. H.Umakoshi, S.Morita, R.Kuboi, Immobilization of Liposome (Chapter 8, Section 5) (in Japanese),Extension of Liposome Application (NTS Publication) 415-424 (2005)
  4. H.Umakoshi, T.Shimanouchi, R.Kuboi, Immobilized Liposome Chromatography (Chater 9, Section 1) (in Japanese),Extension of Liposome Application (NTS Publication), 472-482 (2005)
  5. T.Shimanouchi, H.Umakoshi, R.Kuboi,Control of Amyloid Fibril Formation in Conformational Diseases - from the Viewpoint of Membrane Stress Biotechnology- (in Japanese),Bunri Gijutu (Separation Technology),35(6), 391-396 (2005)
  6. R.Kuboi, H.Umakoshi, T.Shimanouchi, Membrane Stress Biotechnology -Its Application to Design and Development of Drug Delivery System (in Japanese),Kemikaru Enjiniaringu (Chemical Engineering),49(4), 255-260 (2004)
  7. R.Kuboi, H.Umakoshi, H.Nagami, M.Kishida, Control of Stress Response of Biomembrane and Its Application (in Japanese),Seibutsu Kougaku Kaishi (Biotechnology),5, 201-204 (2004)
  8. R.Kuboi, H.Umakohsi, T.Shimanocuhi, S.Morita,Bioseparation Using Immobilized Liposome Chromatography (in Japanese),Bunseki (Analytical Chemistry), 11, 636-642 (2003)
  9. T.Shimanouchi, H.Umakoshi, R.Kuboi, Stress-Induced Amyloidosis Caused by Conformational Change of Protein (in Japanese), Bunri Gijutsu (Separation Engineering), 32(6), 347-351 (2002)
  10. H.-S. Jung, T.Shimanouchi, H.Umakoshi,R.Kuboi, K.Kim, Y.Sakurai, K.Natsukawa, Development of Stress Sensor for Stress Responsive Bioprocess (in Japanese), Kemikaru Enjiniaringu (Chemical Engineering), 47(10), 752-755 (2002)

2000-1995

  1. H.Umakoshi, Study in Chemical Center in Lund University (in Japanese), Seisan to Gijutsu (Manufacture and Technology), 51(2), 23-26 (1999)
  2. Hiroshi Umakoshi, Hideyuki Ota, Takuya Hashimoto and Ryoichi Kuboi: Design and Development of Artificial Chaperone Using Stimuli-Responsive Polymer,Biochem. Eng. Biosep. Eng. (Chem. Eng. Symp. Ser.), 70, 159-163 (1999)
  3. Hiroshi Umakoshi, Josefine Persson, Hans-Olof Johansson, Daniel E. Otzen, Mikael Oliveberg, Ryoichi Kuboi and Folke Tjerneld: Model Process for Separation Using Thermo-Separating Polymer Two-Phase Systems Based on Unfolding and Refolding of Chymotrypsin Inhibitor 2,Biochem. Eng. Biosep. Eng. (Chem. Eng. Symp. Ser.), 70, 62-67 (1999)
  4. Seiichi Morita, Hiroshi Umakoshi and Ryoichi Kuboi: Dielectric Response of Cells and Vesicles and Its Utilization for Stress-Responsive Sensor,Biochem. Eng. Biosep. Eng. (Chem. Eng. Symp. Ser.), 70, 29-33 (1999)
  5. Ryoichi Kuboi and Hiroshi Umakoshi: Evaluation and Utilization of Stress-Response Functions of Bacterial Cells and Proteins for the Integrated Bioseparation Process,Adv. Biosep. Eng. (Chem. Eng. Symp. Ser.), 65, 208-213 (1998)
  6. Toshinori Shimanouchi, Ryoichi Kuboi, Hiroshi Umakoshi and Makoto Yoshimoto: Utilization of Heat Stress Mediated Translocation across Phospholipid Membranes for Protein Separation,Adv. Biosep. Eng. (Chem. Eng. Symp. Ser.), 65, 202-207 (1998)
  7. H.Umakoshi, R.Kuboi, I.Komasawa, Stress Responsive Bioprocess Using Aqueous Two-Phase System (in Japanese),Kemikaru Enjiniaringu (Chemical Engineering), 42(5), 57-63 (393-399) (1997)
  8. H.Umakoshi, R.Kuboi, I.Komasawa, Bioproduction/Separation Process Using Stress Response Function of Bacterial Cells (in Japanese), Kemikaru Enjiniaringu (Chemical Engineering), 41(8), 1-7 (597-603) (1996)
  9. Hiroshi Umakoshi, Naoyuki Takagi, Ryoichi Kuboi and Isao Komasawa: Evaluation and Control of Surface Properties of Microbial Cells and Liposomes,Adv. Biosep. Eng. (Chem. Eng. Symp. Ser.), 53, 47-52 (1995)