Biomedical Engineering Reference
In-Depth Information
111. Vinu, A., Miyahara, M., and Ariga, K., Preparation and pore size control of cage type mesoporous
carbon materials and their application in protein adsorption,
Stud. Surf. Sci. Catal
., 158, 971, 2005.
112. Vinu, A., Miyahara, M., Mori, T., and Ariga, K., Carbon nanocage: a large pore cage-type mesoporous
carbon material as an adsorbent for biomolecules,
J. Porous Mater
., 13, 379, 2006.
113. Kleitz, F., Liu, D., Anilkumar, G.M., Park, I.-S., Solovyov, L.A., Shmakov, A.N., and Ryoo, R., Large
cage face-centered-cubic Fm3m mesoporous silica: synthesis and structure,
J. Phys. Chem. B
, 107,
14296, 20 03.
114. Ravikovitch, P.I. and Neimark, A.V., Density functional theory of adsorption in spherical cavities and
pore size characterization of templated nanoporous silicas with cubic and three-dimensional hexagonal
structures,
Langmuir
, 18, 1550, 2002.
115. Okahata, Y. and Ijiro, K., A lipid-coated lipase as a new catalyst for triglyceride synthesis in organic
solvents,
J. Chem. Soc. Chem. Comm
., 1392, 1988.
116. Okahaya, Y., Tsuruta, T., Ijiro, K., and Ariga, K., Langmuir-Blodgett fi lms of an enzyme-lipid complex
for sensor membranes,
Langmuir
, 4, 1373, 1988.
117. Okahaya, Y., Tsuruta, T., Ijiro, K., and Ariga, K., Preparation of Langmuir-Blodgett fi lms of enzyme
lipid complexes: a glucose sensor membrane,
Thin Solid Films
, 180, 65, 1989.
118. Onda, M., Ariga, K., and Kunitake, T., Activity and stability of glucose oxidase in molecular fi lms
assembled alternately with polyions,
J. Biosci. Bioeng
., 87, 69, 1999.
119. Onda, M., Lvov, Y., Ariga, K., and Kunitake, T., Sequential reaction and product separation on
molecular fi lms of glucoamylase and glucose oxidase assembled on an ultrafi lter.
J. Ferment. Bioeng
.,
82, 502, 1996.
120. Kikuchi, J., Ariga, K., and Ikeda, K., Signal transduction mediated by artifi cial cell-surface receptors:
activation of lactate dehydrogenase triggered by molecular recognition and phase reorganization of bile
acid derivatives embedded in a synthetic bilayer membrane,
Chem. Comm
., 547, 1999.
121. Kikuchi, J., Ariga, K., Miyazaki, T., and Ikeda, K., An artifi cial signal transduction system. Control of
lactate dehydrogenase activity performed by an artifi cial cell-surface receptor,
Chem. Lett
., 253, 1999.
122. Fukuda, K., Sasaki, Y., Ariga, K., and Kikuchi, J., Dynamic behavior of a transmembrane molecular
switch as an artifi cial cell-surface receptor,
J. Mol. Catal. B-Enzym
., 11, 971, 2001.
123. Kikuchi, J., Ariga, K., Sasaki, Y., and Ikeda, K., Control of enzymic activity by artifi cial cell-surface
receptors,
J. Mol. Catal. B-Enzym
., 11, 977, 2001.
124. Shimizu, T., Kogiso, M., and Masuda, M., Vesicle assembly in microtubes,
Nature
, 383, 487, 1996.
125. Ariga, K., Yamada, N., Naito, M., Koyama, E., and Okahata, Y., AFM observation of a supramolecular
rod-like structure of bilayer membrane formed from tripeptide-containing amphiphiles,
Chem. Lett
.,
493, 1998.
126. Yamada, N., Ariga, K., Naito, M., Matsubara, K., and Koyama, E., Regulation of
β
-sheet structures
within amyloid-like beta-sheet assemblage from tripeptide derivatives,
J. Am. Chem. Soc
., 120, 12192,
1998.
127. Ariga, K., Kikuchi, J., Narumi, K., Koyama, E., and Yamada, N., Formation of mesoscopic patterns
with molecular-level fl atness by simple casting of chloroform solutions of tripeptide-containing amphi-
philes,
Chem. Lett
., 787, 1999.
128. Yamada, N. and Ariga. K., Formation of beta-sheet assemblage with a view to developing an amyloid
model,
Synlett
, 575, 2000.
129. Ariga, K., Kikuchi, J., Naito, M., Koyama, E., and Yamada, N., Modulated supramolecular assemblies
composed of tripeptide derivatives: formation of micrometer-scale rods, nanometer-size needles, and
regular patterns with molecular-level fl atness from the same compound,
Langmuir
, 16, 4929, 2000.
130. Yamada, N., Matsubara, K., Narumi, K., Sato, Y., Koyama, E., and Ariga, K., Lyotropic aggregate of
tripeptide derivatives within organic solvents: study on dynamic property of molecular assembling,
Colloid Surf. A-Physicochem. Eng. Asp
., 169, 271, 2000.
131. Ariga, K., Kikuchi, J., Naito, M., and Yamada, N., FT-IR, TEM, and AFM studies of supramolecular
architecture formed by tripeptide-containing monoalkyl amphiphiles,
Polym. Advan. Technol
., 11, 856,
2000.
132. Shimizu, T., Masuda, M., and Minamikawa, H., Supramolecular nanotube architectures based on
amphiphilic molecules,
Chem. Rev
., 105, 1401, 2005.
