Faculty members in Department of Bioinformatics
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Izumi Kubo Professor
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Major Field
Bioelectronics
Bioinformation technology
Study
Development of biosensors for environmental monitoring
Development of fabrication technology of biochips
Publications
(1) "Bioelectronics" joint work , Asakura shoten in Japanese
(2) "Bioinstrumentation Research, Developments and Applications" with Butterworths Publishers
(3) "Determination of environmental substances with microbial sensors" Kagakukogyo, 44, 816-821 (1993) in Japanese
(4) "Phosphate sensing system using pyruvate oxidase and chemiluminescence detection"
with Biosensors & Bioelectronics 11 , 959-965 (1996)
(5)"Electrochemical oligonycleotide detection based on probe DNA modified gold electrode using cobalt phenanthroline complex" Trans IEE of JAPAN, 121-E, 559-563 (2001)
(6)"Sulfate binding protein modified electrode as a chemical sensor" IEICE Trans. Electron , E83-C , 1035-1039 (2000)
(7)"Phosphatidylcholine monolayers observed with Brewster Angle Microscopy and p-A isotherms" Thin Solic Films 393, 80-85 (2001)
(8)Izumi KubogPotentionmetric phosphate-sensing systemhAnalytical and Bioanalytical Chemistry, 327, 273- 275(2002)
(9)Shinya Watanabe and Izumi KubogFructose Biosensor based on D-Fructose Dehydrogenase and Phenanthroline cobalt Complex as aMediatorh,Electrochemistry, 70, 258-263 (2002)
(10)Izumi KUBO, Kentaroh MotoyagCombined Micro Ion Sensor for in vivo DeterminationgTechnical Report of
IEICE, OME-2002-57, 13-18 (2002)
(11)R. ShojiCT. TakeuchiCH. SuzukiCI. KubogReserch of Amperometric Atrazine Chips Using Molecularly Imprinted PolymershChemical Sensors, 18 SupB, 7-9 (2002)
(12)R. Shoji, T. Takeuchi and I. KubogAtrazine Sensor Based on Molecularly Imprinted Polymer-Modified Gold electrodeh, Anal. Chem. 75, 4882-4886 (2003)
(13)R. ShojiCT. TakeuchiCH. SuzukiCI. KubogAtrazine Sensor Based on a nano chemical receptor modified electrodeh@BUNSEKI@KAGAKUC52, 1141-1146 (2003)
(14)Izumi Kubo, Nobuyoshi MaeharagThe Modified Electrode for the Protection of Oxidative Reaction of Ascorbic Acid and Its Application to BiosensorhCChemical Sensors, 19 B, 70-72@(2003)
(15)Yuko Nakane, Izumi KubogApplication to the Endocrine Disrupting Chemicals (EDCs) Sensor for the Cell Membrane Model Complex Immobilized on QCMC Chemical Sensors, 19 B, 100|102 (2003)
(16)Y. Moroi, M. Rusdi and I. Kubo,gDifference in Surface Properties between Insoluble Monolayer and Absorbed Film from Kinetics of Water Evaporation and BAM Imageh, J. Phys. Chem. B, 108(20), 6351-6358 (2004)
(17)Izumi Kubo and Daisuke SatohgPreparation of Phosphate-Binding-Protein Modified electrode and Its Application to Reagentless Phosphate Sensorh Sensors and Materials,16, 391-399 (2004)
(18)R. Shoji, A. Shimizu, H. Suzuki and I. KubogCAT Imprinted polymer and Its Application to the Electrochemical Determination of CAThThe 10th International Meeting on Chemical Sensors,Chemical Sensors, 20 Suppl. B, 552-553 (2004)
(19)Y. Nakane and I. KubogA novel sensing system for endocrine disrupting chemicals (EDCs) based on their hydrophobic interaction with model cell membraneshThe 10th International Meeting on Chemical Sensors,Chemical Sensors, 20 Suppl. B, 616-617 (2004)
(20)gSelective Measurement of Dopamine with an Alkanethiol-Modified Electrodeh,I. Kubo, K. Yoshimura, N. Maehara, Chemical Sensors, 21 Suppl. A, 187-189 (2005)
(21)gStudy of the Preparation of Molecularly Imprinted Polymer Receptor for Simazineh Y. Fuchiwaki, A. Shimizu and I. Kubo, Chemical Sensors, 21 Suppl. A, 190-182 (2005)
(22)hSelective Oxidation of Dopamine and Serotonine with an Alkanethiol-Modified Electrode, I. Kubo, K. Yoshimura and E. Ohashi, Electrochemistry, 74(2), 149-152 (2006)
(23)"A carboxyalkanethiol monolayer modified electrode for blocking of ascorbic acid oxidation and its application to a biosensor", I. Kubo, Y. Nakane, N. Maehara, Electrochmica Acta, 51, 5163-5168 (2006)
(24) "6-Chloro-N,N-diethyl-1,3,5-triazine-2,4-diamine(CAT) Sensor Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Artificial receptor", Y. Fuchiwaki, A. Shimizu, I. Kubo, Anal. Sci., (23), 49-53(2007)
(25)"Development of electrochemical Sensing System for 6-Chloro-N,N-Diethyl-1,3,5-Triazine (CAT) Utilizing an Amalgamated Gold electrodeand Artificial Sensor Receptor", Y. Fuchiwaki, N. Sasaki and I. Kubo, Electrochemistry, 75(9), 709-714 (2007)
(26)S. FURUTANI, H. NAGAI and I. KUBO*.
Single cell isolation on a centrifugal flow disk with integrated tandem microchambers.
Sensor Letters, Vol.6, No.6: pp.961-965, 2008.
(27)N. MATSUNAGA, S. FURUTANI and I. KUBO*.
Centrifugal Flow Device for High-throughput Detection of Cancer Marker CEA.
ECS transactions: Chemical Sensors 8: Chemical (Gas, Ion, Bio) Sensors and Analytical Systems, Vol.16, No.11: pp.123-128, 2008.
(28)N. YOKOTA, Y. FUCHIWAKI and I. KUBO*D
@@Fabrication of bisphenol A sensor utilizing electrode modified with molecularly imprinted polymerD
@@ECS Transactions. Vol.16, No.11: pp.551-556, 2008.
(29)Y. Nakane and I. Kubo*
Biosensor for the Detection of Endocrine Disrupting Chemicals Based on the Degradation of Cell Membrane Model Immobilized on QCM and Its Application to the Detection of Nonylphenol
Electrochemistry, Vol.76, pp.535-537 , 2008
(30)Y. Nakane , M. M. Ito and I. Kubo*
Novel detection method of endocrine disrupting chemicals utilizing liposomes as cell membrane model
Analytical Letters, Vol.41, pp.2923-2932, 2008
(31)I. Kubo,* R. Shoji, Y. Fuchiwaki and H. Suzuki,
Atrazine Sensing Chip Based on Molecularly Imprinted Polymer Layer,
Electrochemistry, Vol.76, pp.541-544 , 2008
(32)Y. Nakane and I. Kubo*
Degradation of liposome cluster caused by the interaction with endocrine disrupting chemicals,
Colloids and Surfaces B: Biointerfaces, Vol.66, pp.60-64 , 2008
(33)Y. Fuchiwaki, R. Shoji, I. Kubo* and H. Suzuki,
6-Chloro-N,N-Diethyl-1,3,5-Triazine-2,4-Diamine(Simazine) Electrochemical Sensing Chip Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Polymer Layer on a Gold Chip,
Analytical Letters, Vol.41, pp.1398-1407 , 2008
(34)I. KUBO*, S. FURUTANI and H. NAGAI.
The Activity Determination of Single Cell by Isolation and Cultivation on a Centrifugal Flow Disk.
ECS transactions: Challenges to Single-Cell Engineering and Imaging Technology, in press.