gPolymerization of Pyrrole in Microgravityh T. Nakamura, T. Akutagawa, T. Hasegawa, T. Kikukawa, T. Araiso, M. Higuchi, and K. Hiratani, Synthetic Metals, 101, 78-79 (1999).

gpH-Induced Structural Changes of a Polymer Micelle Composed of Amphiphilic Polyallylamine Containing Hydrophilic Poly(L-glutamic acid) in the side Chainh M. Higuchi, Polym. J., 31, 279-284 (1999).

gAggregation of Self-Assembling Branched [n]rotaxanesh D. B. Ambilino, M. Asakawa, P. R. Ashton, R. Balladini, V. Balzani, M. Belohradsky, A. Credi, M. Higuchi, F. M. Raymo, T. Shimizu, J. F. Stoddart, M. Venturi, and K. Yase, New J. Chem. 22, 959-972 (1998).

gOscillations of Membrane Potential across a Polypeptide Membrane Induced by an Electric Currenth N. Minoura, M. Higuchi, T. Ohmori, and T. Yamaguchi, Biochem. Biophys. Res. Commun., 249, 601-604 (1998).

gPhotoresponsive Behavior of Self-assembling System by Amphiphilic a-Helix with azobenzen Unith M. Higuchi and T. Kinoshita, J. Photochem. Photobiol., B. Biol., 42, 143-150 (1998).

gSynthesis and Properties of Self-Assembling Branched [n]Rotaxanesh M. Asakawa, M. Higuchi, T. Shimizu, J. F. Stoddart,* and F. M. Raymo, CHIMIA, 51, 421-422 (1997).

gStimuli-responsive Formation of Helical Polypeptides Rod Assembliesh N. Minoura, M. Higuchi, and T. Kinoshita, Materials Science and Engineering, C4, 249-254 (1997).

gSieving Study of Chromatine and Histone-DNA Complex by Porous Hollow Fiber Membraneh A. Higuchi, T. Yoshimura, K. Kato, M. Hara, M. Higuchi, N. Minoura, T. Hirasaki, T. Sato, G. Ishikawa, H. Nakano, S. Satho, and S.-I. Manabe, J. Membrane Sci., 126, 7-17 (1997).

gRecognition of Hormones by Membrane Potential and Circular Dicroism of Immobilized Protein Membranesh M. Hara, M. Higuchi, N. Minoura, and A. Higuchi, J. Appl. Polym. Sci., 65, 251-259 (1997).

gPhotocontrol of Molecular Orientation of a Photoresponsive Amphiphilic a-Helix in a Lipid Monolayerh M. Higuchi, N. Minoura, and T. Kinoshita, Langmuir, 13, 1616-1622 (1997).

gMicrophase-Separated Structure in Triblock Copolypeptide Membranes Composed of L-Glutamic Acid and L-Leucineh N. Minoura and M. Higuchi, Macromolecules, 30, 1023-1027 (1997).

gStructural and Functional Modeling of Ion Channelsh M. Higuchi, Journal of the National Institute of Chemical Research, 4, 93-104 (1996).

gRecognition of Substrates by Immobilized Alubumin Membranes Prepared from Langmuir-Blodgett and Entrapment Methods ?Response of Circular Dichroisn Induced by D- and L-Tryptophan-g M. Hara, M. Higuchi, N. Minoura, S.-K. Oh-uchi, C.-S. Cho, T. Akaike, and A. Higuchi, Nippon Kagakukaishi, 483-490 (1996).

gRecognition of Amino Acids by Membrane Potential and Circular Dichroism of Immobilized Alubumin Membraneh M. Hara, M. Higuchi, N. Minoura, and A. Higuchi, J. Appl. Polym. Sci., 58, 2025-2032 (1995).

gPhoto-responsive Behavior of a Monolayer Composed of an Azobenzene Containing Polypeptide in the Main Chainh M. Higuchi, N. Minoura, and T. Kinoshita, Colloid & Polym. Sci., 273, 1022-1027 (1995).

gPhotoinduced Structural and Functional Changes of an azobenzene-containing Amphiphilic sequential Polypeptideh M. Higuchi, N. Minoura, and T. Kinoshita, Macromolecules, 28, 4981-4985 (1995).

gAttachment and Growth of Fibroblast Cells on Silk Fibroinh N. Minoura, S.-I. Aiba, M. Higuchi, Y. Gotoh, M. Tsukada, and Y. Imai, Biochim. Biophys. Res. Commun., 208, 511-516 (1995).

gPhotocontrol of Micellar Structure of an Azobenzene Containing Amphiphilic Sequential Polypeptideh M. Higuchi, N. Minoura, and T. Kinoshita, Chem. Lett., 227-230 (1994).

gInter-Vesicular Communications by a Synthetic Amphiphilic Polypeptideh T. Kinoshita, M. Higuchi, A. Takizawa, and Y. Tsujita, Chem. Lett., 431-434 (1993).

gInteraction between an Anionic Amphiphilic Sequential Polypeptide and Anionic Bilayer Membraneh M. Higuchi, T. Kinoshita, A. Takizawa, Y. Tsujita, K. Okochi, and N. Hattori, Polym. J., 23, 15-22 (1991).

gInteraction between L-Glutamic Acid Containing Polypeptide and Cu2+ Ion on a Bilayer Membraneh M. Higuchi, Y. Nagata, T. Kinoshita, A. Takizawa, and Y. Tsujita, SEI-GAKKAISHI, 46, 384-390 (1990).

gChannel Forming Activity of an Amphiphilic Sequential Polypeptide in a Cationic Bilayer Membraneh M. Higuchi, T. Kinoshita, A. Takizawa, Y. Tsujita, and K. Okochi, Bull. Chem. Soc. Japan, 63, 1916-1920 (1990).

gA Simple Method for the Preparation of an Amphiphilic Polypeptideh M. Higuchi, A. Takizawa, T. Kinoshita, Y. Tsujita, and K. Okochi, Macromolecules, 23, 361-365 (1990).

gMembrane Potential Induced by Multi Valent Metal Ion in a Polypeptide-Phospholipid Composite Membraneh M. Higuchi, Y. nagata, T. Kinoshita, A. Takizawa, and Y. Tsujita, Rept. Prog. Polym. Phys. Japan, XXXII, 671-674 (1989).

gEffect of Hydrophobicity of Anionic Copolypeptides on the Structure and Functions of Cationic Bilayer Membraneh M. Higuchi, T. Kinoshita, A. Takizawa, and Y. Tsujita, Polym. J., 21, 295-302 (1989).

gA Simple Method for the Preparation of an Amphiphilic Polypeptide and its Channel Forming Activityh M. Higuchi, A. Takizawa, T. Kinoshita,* and Y. Tsujita, Rept. Prog. Polym. Phys. Japan, XXXI, 557-560 (1988).

gPhotocontrol of Vesicular Adhesion and Function by a Photoresponsive Polypeptideh M. Higuchi, A. Takizawa, T. Kinoshita, and Y. Tsujita, Macromolecules, 20, 2888-2892 (1987).

gSolubilities of Polypeptide with Hydrophobic and Negatively Charged Side-Chaines into Cationic Artificial Membrane Vesicleh A. Takizawa, M. Higuchi, T. Kinoshita, and Y. Tsujita, Colloid & Polym. Sci., 265, 31-36 (1987).