[Paper]
(1) S. Fujita, R. Onuki-Nagasaki, J. Fukuda, J. Enomoto, S. Yamaguchicd, M. Miyake, Development of super-dense transfected cell microarrays generated by piezoelectric inkjet printing, Lab on a Chip (IF=5.6), 13, pp. 77-80, 2013
(2) J. Enomoto, R. Takagi, R. Nagasaki, H.i Suzuki, S. Fujita, J.i Fukuda, Reverse transfection in microchamber arrays for cell migration assays, Sensors & Actuators: B. Chemical (IF=4.6), 190, pp. 896-899, 2014
(3) T. Kageyama, T. Kakegawa, T. Osaki, Junko Enomoto, T. Ito, T. Nittami, J. Fukuda, Rapid engineering of endothelial cell-lined vascular-like structures in situ crosslinkable hydrogels, Biofabrication (IF=4.7), 6, pp. 025006-17, 2014,
(4) T. Osaki, T. Kakegawa, T. Kageyama, J. Enomoto, T. Nittami, J. Fukuda, Acceleration of vascular sprouting from fabricated perfusable vascular-like structures, PLoS ONE (IF=3.1), 10(4), pp. e0123735, 2015
(5) H. Sasaki*, J. Enomoto*, Y. Ikeda, H. Honda, J. Fukuda, R. Kato, Cell culture medium profiling by heterogeneous cellular morphology analysis in microdevice, Journal of Bioscience and Bioengineering (IF=2.1), 121(1), pp. 117-123, 2016 (*: The first two authors contributed equally)
(6) J. Enomoto*, N. Mochizuki*, K. Ebisawa, T. Osaki, T. Kageyama, D. Myasnikova, T. Nittami, J. Fukuda, Engineering thick cell sheets by electrochemical desorption of oligopeptides on membrane substrates, Regenerative Therapy, 3, pp. 24-21, 2016 (*: The first two authors contributed equally)
(7) C. Arrigoni, M. Bongio, G. Talò, S. Bersini, J. Enomoto, J. Fukuda, M. Moretti, Rational Design of Prevascularized Large 3D Tissue Constructs using Computational Simulations and Biofabrication of Geometrically Controlled Microvessels, Advanced Healthcare Materials (IF=5.8), 5, pp. 1617-1626 (2016).
(8) T. Kageyama, T. Osaki, J. Enomoto, D. Myasnikova, T. Nittami, T. Hozumi, T. Ito, J. Fukuda, In Situ Cross-Linkable Gelatin-CMC Hydrogels Designed for Rapid Engineering of Perfusable Vasculatures, Biomaterials Science & Engineering, 2, pp. 1059-1066 (2016).
(9) J. Enomoto, T. Kageyama, T. Osaki, F. Bonalumi, F. Marchese, A. Gautieri, E. Bianchi, G. Dubini, C. Arrigoni, M. Moretti, and J. Fukuda, Catch-and-Release of Target Cells Using Aptamer-Conjugated Electroactive Zwitterionic Oligopeptide SAM, Scientific Reports (IF=5.2), 7, pp. 43375 (2017).
(10) K. Onishi, J. Enomoto, T. Araki, R. Takagi, H. Suzuki, and J. Fukuda, Electrochemical microdevices for rapid and on-site determination of the minimum inhibitory concentration of antibiotics, Analyst (IF=3.9), 143, pp. 396-399 (2018)
(11) J. Enomoto, T. Kageyama, D. Myasnikova, K. Onishi, Y. Kobayashi, Y. Taruno, T. Kanai, and J. Fukuda, Gold cleaning methods for preparation of cell culture surfaces for self-assembled monolayers of zwitterionic oligopeptides, Journal of Bioscience and Bioengineering (IF=2.2), in press
[Proceedings]
(1) Junko Enomoto, Rika Takagi, Reiko Nagasaki, Hiroaki Suzuki, Satoshi Fujita, Junji Fukuda, Microdevice for cell migration assays using reverse-transfection, µTAS, (2012) 1627-1629.
[Book chapters]
(1)Junko Enomoto, Takahiro Kakegawa, Tatsuya Osaki, Tatsuto Kageyama, Junji Fukuda, Cell detachment for engineering three-dimensional tissues, Hyper Bio Assembler for 3D Cellular Systems, Eds. Arai, Tatsuo, Arai, Fumihiro, Yamato, Masayuki, Chapter 12, 213-222, 2015, ISBN 978-4-431-55297-0
[Conference]
(Oral presentation)
(1) Junko Enomoto, R. Nagasaki, J. Fukuda, S. Fujita , Microdevice for cell migration assays using reverse transfection, 2013 MRS Fall Meeting & Exhibit, Boston, USA, December 2013.
(2) Junko Enomoto, Alfonso Gautieri, Junji Fukuda, Surface Design for Catch-and-release of Target Cells using Electrochemical Cell Detachment, 12th Annual International Electromaterials Science Symposium, University of Wollongong, Australia, February 2017
(Poster presentation)
(1) Junko Enomoto, R. takagi, R. Nagasaki, H. Suzuki, S. Fujita, J. Fukuda, Microdevice for cell migration assays using reverse-transfection, µTAS2012, Okinawa, Japan, October 28 – November 1, 2012.
(2) Junko Enomoto, Takahiro Kakegawa, Tatsuya Osaki, Tatsuto Kageyama, Junji Fukuda, Design of zwitterionic oligopeptide for catch-and-release of target cells, 2nd International Conference on Bioinspired and Zwitterionic Materials, Seattle, USA, August 13-14, 2015.
(3) Junko Enomoto, Tatsuya Osaki, Tatsuto Kageyama, Junji Fukuda, Catch-and-release of target cells using aptamer and electrochemical cell detachment, 4th TERMIS WORLD CONGRESS, Boston, USA, September 8-11, 2015
(4) Junko Enomoto, Takahiro Kakegawa, Tatsuya Osaki, Tatsuto Kageyama, Junji Fukuda, Surface design for selective cell catch-and-release using electrochemical trigger, International Conference on Biofabrication 2015, Utrecht, The Netherlands, November 7-9, 2015
[Award]
(1)サイエンス・インカレ, Tokyo, Japan, March 2013
(2)TUAT Leading Seminar, Tokyo, Japan, March 2013
(3)Commended by Tsukuba university president, March 2013
(4)The 27th Cheminas, Sendai, Japan, May 2013
(5)Best presentation award, Yokohama National University, March 2015
(6)Poster presentation award, Young research symposium of the society for biotechnology, Japan, July 2015
(7)2015 4th TERMIS WORLD CONGRESS, 2015 TERMIS Travel Award, September 2015.
(8)Student Award of the Society for Biotechnology, Japan, October 2015
(9)ISBF POSTER AWARD, International Conference on Biofabrication 2015, November 2015
(10)Award for Encouragement of Research in Materials Science, 25th Annual Meeting of MRS-J (2015), December 2015
[Patent]
[1] Inventors: J Fukuda, H Suzuki, A Yamagishi, J Enomoto、M Yokokawa、Applicants: University of Tsukuba、Culture method and culture device、International Application No.: PCT/JP2014/054299、International Filing Date: 2.24.2014