References

Aizawa, M.,S. Yabuki, H. Shinohara, and Y. Ikariyama. 1989. In Molecular Electronics-Science and Technology, ed. A. Aviram, 301. New York: Eng. Foundation.

Aviram, A., and M. A. Ratner. 1974. Molecular rectifiers. Chem. Phys. Lett. 29: 277–283.

Carter, F., ed., 1987. Molecular Electronic Devices. (Proceedings of the Workshop on Molecular Electronic Devices held at NRL, Washington, D.C., 1981.) New York: Marcel Dekker.

Chee, G-J.,Y. Nomura, K. Ikebukuro, and I. Karube. 1999. Development of highly sensitive BOD sensor and its evaluation using preozonation. Anal. Chimica Acta. 394: 65–71.

Chemnitius, G.C.,M. Suzuki, K. Isobe, J. Kimura, I. Karube, and R. D. Schmid. 1992. Thin-film polyamine biosensor: Substrte specificity and application to fish freshness determination. Anal. Chem. Acta 263: 93–100.

Gotoh, M.,E. Tamiya, and I. Karube. 1986. Polyvinylbutyral resin membrane for enzyme immobilization of an ISFET microbiosensor. J. Mol. Catalysis 37: 133–139.

Gotoh, M.,A. Seki, E. Tamiya, and I. Karube. 1987. Biosensor using amorphous silicon ISFET. Proc. Chem. Sensors 285–291.

Gotoh, M.,E. Tamiya, A. Seki, I. Shimizu, and I. Karube. 1988. Inosine sensor based on amorphous silicon ISFET. Anal. Lett. 21: 1785–1800.

Gotoh, M.,S. Oda, I. Shimizu, A. Seki, E. Tamiya, and I. Karube. 1989a. Construction of amorphous silicon ISFET. Sensors Actuators 16: 55–65.

Gotoh, M.,E. Tamiya, A. Seki, I. Shimizu, and I. Karube. 1989b. Glucose sensor based on amorphous silicon ISFET. Anal. Lett. 22: 309–322.

Goto, M.,C.-Y. Chen, and I. Karube. 1993. Glucose biosensor using chitosan membrane. Sensors Materials 4: 187–193.

Hikuma, M.,T. Kubo, and T. Yasuda. 1979. Microbial electrode sensor for alcohols. Biotechnol. BioEng. 21: 1845–1853.

Hiratsuka, A.,H. Muguruma, S. Sasaki, K. Ikebukuro, and I. Karube. 1999. A glucose sensor with a plasma-polymerised thin film fabricated by dry processes. Electroanalysis 11: 1098–1100.

Hirose, S.,M. Hayashi, N. Tamura, T. Kamidate, I. Karube, and S. Suzuki. 1983. Determination of urea in blood serum with use of immobilized urease and a microware cavity ammonia monitor. Anal. Chim. Acta 151: 377–382.

Hu. Y. Z.,S. Tsukiji, S. Shinkai, S. Oishi, and I. Hamachi. 2000. Construction of artificial photosynthetic reaction centers on a protein surface: Vectorial, multistep, and proton-coupled electron transfer for longlived charge separation. J. Am. Chem. Soc. 122: 241–253.

Ikebukuro, K.,M. Shimomura, N. Onuma, A. Watanabe, Y. Nomura, K. Nakanishi, Y. Arikawa, and I. Karube. 1996. A novel biosensor system for cynanide based on a chemiluminescence reaction. Anal. Chim. Acta 329: 111–116.

Ito, N.,T. Matsumoto, H. Fujiwara, Y. Matsumoto, S. Kayashima, T. Arai, M. Kikuchi, and I. Karube. 1995. Transcutantous lactate monitoring based on a micro-planar amperometric biosensor. Anal. Chim. Acta 312: 323–328.

Ito, N.,S. Miyamoto, J. Kimura, and I. Karube. 1996. The detection of lactate using the repeated application of stepped potentials to a micro-planar gold electrode. Biosensors Bioelectronics 320: 269–276.

Kai, E.,S. Sawata, K. Ikebukuro, T. Iida, T. Honda, and I. Karube. 1997. Novel DNA detection system of flow injection analysis(z). The distinctive properties of a novel system employing PNA (peptide nucleic acid) as a probe for specific DNA detection. Nucleic Acids Symposium Series 37: 321–322.

Karube, I., and S. M. Chang. 1991. In Handbook of Biosensors, eds. L. J. Blum and P. R. Coulet, 267–302. New York: Marcel Dekker.

Karube, I., and M. Gotoh, 1988. Immunosensors. In Analytical Uses of Immobilized Biological Compounds for Detection, Medical and Industrial Uses, eds. G. G. Guibault, M. Massine, 267–279. Dordrecht: D. Reidel.

Karube, I., and M. Shimohigoshi. 1996. Development of uric acid and oxalic sensors using a bio-thermochip. Sensors Actuators. B 30: 17–21.

Karube, I., and K. Sode. 1988. Enzyme and microbial sensor. In Analytical Uses of Immobilized Biological Compounds for Detection, Medical and Industrial Uses, NATO ASI Series, eds. G. G. Guilbault and M. Mascini, 115–130. Dordrecht: D. Reidel.

Karube, I., and K. Sode. 1990. Microbial sensors for process and environmental control. In Biosensors and Bioinstrumentation, ed. Donald L. Wise, 1–18. New York: Marcel Dekker.

Karube, I., and S. Suzuki. 1972a. Electrochemical preparation of urease-collagen membrane. Biochem. Biophys. Res. Commun. 47: 51–54.

Karube, I., and S. Suzuki. 1972b. Electrochemical aggregation of tropocollagen. Biochem. Biophys. Res. Commun. 48: 320–325.

Karube, I., and S. Suzuki. 1986. Automatic analysis of amino acid using biosensors. In Biotechnology of Amino Acid Production, eds. K. Aida, I. Chibata, and K. Nakayama, 81–89. Tokyo: Kodansha Elsevier.

Karube, I., and T. Takeuchi. 1993. Biosensors for food analysis. Sensors Biosensors for Food Analysis Process. Italy.

Karube, I., and K. Yokoyama. 1993. Trends in biosensor research and development. Sensors and Actuators B 13: 12–15.

Karube, I.,S. Suzuki, S. Kinoshita, and J. Mizuguchi. 1971. Ind. Eng. Chem. 10: 160–163.

Karube, I.,S. Mitsuda, T. Matsunaga, and S. Suzuki. 1976. A rapid method for estimation of BOD by using immobilized microbial cells. J. Ferment. Technol. 55: 243–248.

Karube, I.,T. Matsunaga, and S. Suzuki. 1977. A new microbial electrode for BOD estimation. J. SolidPhase BioChem. 2: 97–104.

Karube, I.,T. Matsunaga, S. Mitsuda, and S. Suzuki. 1977. Microbial Electrode BOD sensors. Biotechnol. BioEng. 19: 1535–1547.

Karube, I.,I. Satoh, Y. Araki, S. Suzuki, and H. Yamada. 1980. Monoamine oxidase electrode in freshness testing of meat. Enzyme Microb. Technol. 2: 117–120.

Karube, I.,H. Matsuoka, S. Suzuki, E. Watanabe, and K. Toyama. 1984a. Determination of fish freshness with an enzyme sensor system. J. Agric. Food Chem. 32: 314–319.

Karube, I.,H. Matsuoka, E. Watanabe, and S. Suzuki. 1984b. Measurement of freshness with a multifunctional enzyme sensor using multienzyme membrane. Kobunshi Ronbunshu 41: 233–248 (in Japanese).

Karube, I.,K. Yokoyama, K. Sode, and E. Tamiya. 1989. Microbial BOD sensor using thermophilic bacteria. Anal. Lett. 22: 791–801.

Karube, I.,A. Seki, and K. Sode. 1990. Microbiosensors and immunosensors. In Microbial Enzyme and Biotechnology, eds. W. Fogarty and C. Kelly, 425–431. Amsterdam: Elsevier Science.

Karube, I.,K. Ikebukuro, Y. Murakami, and K. Yokoyama. 1994. Micromachining technology and biosensors. Enzyme Engineering XII. Ann. NY Acad. Sci. 750: 101–108.

Kitagawa, Y.,K. Kitabatake, I. Kubo, E. Tamiya, and I. Karube. 1989. Alcohol sensor based on membrane-bound alcohol dehydrogenase. Anal. Chim. Acta 218: 61–68.

Kitagawa, Y.,K. Kitabatake, M. Suda, H. Muramatsu, T. Ataka, A. Mori, E. Tamiya, and I. Karube. 1991. Amperometric detection of alcohol in beer using a flow cell and immobilized alcohol dehydrogenase. Anal. Chem. 63: 2391–2393.

Kubo, I., and I. Karube. 1988. Bunseki Kagaku 37: 628–632 (in Japanese).

Lee, S. M.,M. Suzuki, M. Kumagai, H. Ikeda, E. Tamiya, and I. Karube. 1992. Bioluminescence detection system of mutagen using firefly luciferase introduced in Escherichia coli lysogenic strain. Anal. Chem. 64: 1755–1759.

Matsunaga, T.,I. Karube, N. Teraoka, and S. Suzuki. 1980. Microbioassay of amino acid with a lactate sensor. J. Chem. Soc. Japan (Special Articles on Sensors in Chemistry) 10: 1537–1541 (in Japanese).

Miyahara, Y.,T. Moriizumi, S. Shiokawa, H. Matsuoka, I. Karube, and S. Suzuki. 1983. Micro urea sensor using semiconductor and enxyme-immobilizing technology. J. Chem. Soc. Japan 6: 823–830 (in Japanese).

Miyahara, Y.,S. Shiokawa, T. Moriizumi, H. Matsuoka, I. Karube, and S. Suzuki. 1982. Biosensors using ISFET with immobilized enzyme membrane. Proceeding of the 2nd Sensor Symposium, 91–95. Tokyo: IEEJ.

Muguruma, H.,A. Hiratsuka, and I. Karube. 2000. Thin-film glucose biosensor based on plasmapolymerized film: Simple design for mass production. Anal. Chem. 72: 2671–2675.

Muguruma, H., and I. Karube. 1999. Plasma-polymerized films for biosensors. Trends Anal. Chem. 18: 62–68.

Murakami, Y.,T. Takeuchi, K. Yokoyama, E. Tamiya, I. Karube, and M. Suda. 1994a. Integration of enzyme-immobilized column with electrochemical flow cell using micromachining techniques for a glucose detection system. Anal. Chem. 65: 2731–2735.

Murakami, T.,S. Nakamoto, J. Kimura, T. Kuriyama, and I. Karube. 1986. A micro-planar amperometric glucose sensor using an ISFET as a reference electrode. Anal. Lett. 19: 1973–1986.

Murakami, Y.,M. Suda, K. Yokoyama, T. Takeuchi, E. Tamiya, and I. Karube. 1994b. Micromachined enzyme reactor for FIA system. Microchem. J. 49: 319–325.

Nakamura, H.,K. Ikebukuro, S. McNiven, I. Karube, H. Yamamoto, K. Hayshi, M. Suzuki, and I. Kubo. 1997a. A chemiluminescent FIA biosensor for phosphate ion monitoring using pyruvate oxidase. Biosensors Bioelectronics 12: 959–966.

Nakamura, R.,H. Muguruma, K. Ikebukuro, S. Sasaki, R. Nagata, I. Karube, and H. Pedersen. 1997. A plasma-polymerized film for surface plasmon resonance immunosensing. Anal. Chem. 69: 4649–4652.

Nakanishi, K.,M. Adachi, Y. Sako, Y. Ishida, H. Muguruma, and I. Karube, 1996. Detection of the red tide-causing plankton Alexandrium affine by a piezoelectric immunosensor using a novel method of immobilizing antibodies. Analytical Letters 29: 1247–1258.

Nakanishi, K.,I. Karube, S. Hiroshi, A. Uchida, and Y. Ishida. 1996b. Detection of the red tide-causing plankton Chattonella marina using a piezoelectric immunosensor. Anal. Chim. Acta 325: 73–80.

Nakanishi, K.,H. Muguruma, and I. Karube. 1996. A novel method of immobilizing antibodies on a quartz crystal microbalance using plasma-polymerized films for immunosensors. Anal. Chem. 68: 1695–1700.

Nomura, Y.,G. Chee, and I. Karube. 1998. Biosensor technology for determination of BOD. Field Anal. Chem. Technol. 2–6: 333–340.

Pletneva, E. V.,D. B. Fulton, T. Kohzuma, and N. M. Kostic. 2000. Direct kinetic evidence for multiple binary complexes. J. Am. Chem. Soc. 122: 1034–1046.

Rachkov, A.,S. McNiven, A. El'-skaya, K. Yano, and I. Karube. 2000. Fluorescence detection of βestradiol using a molecularly imprinted polymer. Anal. Chim. Acta. 405: 23–29.

Sakamoto, D.,H. Gouzu, K. Komiya, D. Kiga, S. Yokoyama, T. Yokomori, and M. Hagiya. 2000. Molecular computation by DNA hairpin formation. Science 288: 1223–1226.

Sasaki, S.,E. Kai, H. Miyachi, H. Muguruma, K. Ikebukuro, H. Ohkawa, and I. Karube. 1998. Direct determination of etofenprox using surface plasmon resonance. Anal. Chim. Acta 363: 229–233.

Satoh, I.,I. Karube, and S. Suzuki. 1976. Enzyme electrode for saccharose. Biotechnol. BioEng. 18: 269–272.

Sawata, S.,E. Kai, K. Ikebukuro, T. Iida, T. Honda, and I. Karube. 1999. Application of peptide nucleic acid to the direct detection of deoxyribonucleic acid amplified by polymerase chain reaction. Biosensors Bioelectronics 14: 397–404.

Shinohara, H.,T. Chiba, and M. Aizawa. 1988. Enzyme microsensor for glucose with an electrochemically synthesized enzyme-polyaniline film. Sensors Actuators B 13: 79–86.

Streyer, L. 1988. Biochemistry, third edition, New York: W. H. Freeman and Company.

Suzuki, S.,I. Karube, and Y. Watanabe. 1972. Electrolytic preparation of enzyme-collagen films. Proc. IV IFS: Ferment. Technol. Today 375–377.

Suzuki, S.,N. Sonobe, I. Karube, and M. Aizawa. 1974. Electrochemical preparation of uricase-collagen membrane. Chem. Lett. 1: 9–10.

Suzuki, M.,H. Suzuki, I. Karube, and R. D. Schmid. 1989. Disposable micro hypoxanthine sensors for freshness estimation. In Biosensors: Applications in medicine, environmental protection and process control, eds. R. D. Schmid, F. Scheller, 107–111. Proceedings of the second International Workshop on Biosensors, held in Braunschweig, FRG, May 1989, published as GBF Monograph 13.

Suzuki, H. 1994. Integrated amino acid sensors for detection of L-glutamate, L-lysine, L-arginine, and Lhistidine. Electroanalysis 6: 299–304.

Suzuki, H.,H. Shiroishi, S. Sasaki, and I. Karube. 1999. Microfabricated liquid junction Ag/AgCl reference electrode and its application to a one-chip potentiometric sensor. Anal. Chem. 71: 5069–5075.

Suzuki, H.,T. Hirakawa, S. Sasaki, and I. Karube. 1999b. An integrated three-electrode system with a micromachined liquid-junction Ag/AgCl reference electrode. Anal. Chim. Acta 387: 103–112.

Suzuki, H.,H. Ozawa, S. Sasaki, and I. Karube. 1999c. A novel thin-film Ag/AgCl anode structure for microfabricated Clark-type oxygen electrodes. Sensors Actuators B 53: 140–146.

Suzuki, S., and I. Karube. 1978. Microbial electrode: BOD sensor. Enzyme Eng. 4: 329–333.

Tamiya, E.,K. Masaki, T. Sugiyama, and I. Karube. 1989. Highly selective detection system for luciferase gene in transgenic fish. Proc. 1st Int. Marine Biotechnology Conference, 281–284. Held 3–6 September 1989, Toranomon Pastral, Tokyo, Japan. Published as Current Topics in Marine Biotechnology, eds. Miyachi, S., I. Karube, and Y. Ishida, 1990. Tokyo: Japan Society of Marine Biotechnology.

Tamiya, E.,T. Sugiyama, K. Masaki, A. Hirose, T. Okoshi, and I. Karube. 1990. Spatial imaging of luciferase gene expression in transgenic fish. Nucleic Acids Res. 18: 1072.

Ueyama, S.,S. Isoda, and M. Maeda. 1989. Electrochemical behavior of a flavin Langmuir-Blodgett monolayer on gold electrodes. J. Electroanal. Chem. 364: 149–156.

Watanabe, E.,K. Toyama, I. Karube, H. Matsuoka, and S. Suzuki. 1984a. Determination of Inosine-5monophosphate in fish tissue with an enzyme sensor. J. Food Sci. 49: 114–116.

Watanabe, E.,T. Ogura, K. Toyama, I. Karube, H. Matsuoka, and S. Suzuki. 1984b. Determination of adenosine 5′-monophosphate in fish and shellfish using an enzyme sensor. Enzyme Microbiol. Technol. 6: 207–211.

Yang, Z.,H. Suzuki, S. Sasaki, S. McNiven, and I. Karube. 1997. Comparison of dynamic transient and steady state measuring measuring methods in a batch type BOD sensing system. Sensors Actuators B 45: 217–222.

Yokoyama, K.,K. Sode, E. Tamiya, and I. Karube. 1989. Integrated biosensor for glucose and galactose. Anal. Chim. Acta 218: 137–142.

Zhang, L.,C. H. Tai, L. Yu, and C.A. Yu. 2000. pH induced electron transfer between iron-sulfur clusters and heme c1 in the bovine cyloctrane bc1 complex. J. Biol. Chem. 275: 7656–7661.