Satoshi Yamaguchi
University of Tokyo
80 Papers
544 Citations
Satoshi Yamaguchi is an academic researcher from University of Tokyo. The author has contributed to research in topics: Biotinylation & Surface plasmon resonance. The author has an hindex of 22, co-authored 79 publications. Previous affiliations of Satoshi Yamaguchi include Kyoto University & National Presto Industries.
Chat about Author
Papers
Photo Gel-Sol/Sol-Gel Transition and Its Patterning of a Supramolecular Hydrogel as Stimuli-Responsive Biomaterials
Shinji Matsumoto,Satoshi Yamaguchi,Shiori Ueno,Harunobu Komatsu,Masato Ikeda,Koji Ishizuka,Yuko Iko,Kazuhito V. Tabata,Hiroyuki Aoki,Shinzaburo Ito,Hiroyuki Noji,Itaru Hamachi,Itaru Hamachi +12 more
TL;DR: The results demonstrated that the photoresponsive supramolecular hydrogel and the resulting nanomeshes may provide unique biomaterials for the spatiotemporal manipulation of various biomolecules and live bacteria.
210
Protein refolding using chemical refolding additives.
TL;DR: A wide array of methods based on novel technologies and materials select refolding conditions where productive refolding dominates over unproductive aggregation in competitive refolding reactions are described.
176
Cooperation between Artificial Receptors and Supramolecular Hydrogels for Sensing and Discriminating Phosphate Derivatives
TL;DR: This study has successfully demonstrated that the cooperative action of artificial receptors with semi-wet supramolecular hydrogels may produce a unique and efficient molecular recognition device not only for the simple sensing of phosphate derivatives, but also for discriminating among phosphate derivatives.
146
Photo-responsive gel droplet as a nano-or pico-litre container comprising a supramolecular hydrogel
Shinji Matsumoto,Satoshi Yamaguchi,Atsuhiko Wada,Toshihiro Matsui,Masato Ikeda,Itaru Hamachi,Itaru Hamachi +6 more
TL;DR: Gel droplets having nano- or pico-L volume that showed photo-induced gel-sol transition were successfully developed, for which the inter-droplet mass transport and the subsequent enzymatic reactions in the interior of the gel droplets were photo-triggered.
74
Photocontrollable dynamic micropatterning of non-adherent mammalian cells using a photocleavable poly(ethylene glycol) lipid.
Satoshi Yamaguchi,Shinya Yamahira,Kyoko Kikuchi,Kimio Sumaru,Toshiyuki Kanamori,Teruyuki Nagamune +5 more
TL;DR: A light-induced in situ cell micropatterning method that can be applied to non-adherent cells using a cell membrane binding reagent consisting of poly(ethylene glycol) (PEG) and an oleyl group is reported.
63