Ryuji Kato
Nagoya University
115 Papers
614 Citations
Ryuji Kato is an academic researcher from Nagoya University. The author has contributed to research in topics: Peptide & Chemistry. The author has an hindex of 22, co-authored 98 publications. Previous affiliations of Ryuji Kato include Nagoya Women's University & Gakushuin University.
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Papers
Morphology-based prediction of osteogenic differentiation potential of human mesenchymal stem cells.
Fumiko Matsuoka,Ichiro Takeuchi,Hideki Agata,Hideaki Kagami,Hideaki Kagami,Hirofumi Shiono,Yasujiro Kiyota,Hiroyuki Honda,Ryuji Kato +8 more
TL;DR: The results provide strong evidence for the feasibility of using a quantitative time series of phase-contrast cellular morphology for non-invasive cell quality prediction in regenerative medicine.
Hidden Markov model-based prediction of antigenic peptides that interact with MHC class II molecules.
Hideki Noguchi,Ryuji Kato,Taizo Hanai,Yukari Matsubara,Hiroyuki Honda,Vladimir Brusic,Takeshi Kobayashi +6 more
TL;DR: Hidden Markov models (HMM) were combined with the successive state splitting (SSS) algorithm for optimization of the HMM structure, to predict peptide binders to the human MHC class II molecule HLA-DRB1*0101, demonstrating the high accuracy of predictions with the simplicity of implementation.
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Analysing the substrate multispecificity of a proton-coupled oligopeptide transporter using a dipeptide library
Keisuke Ito,Aya Hikida,Shun Kawai,Vu Thi Tuyet Lan,Takayasu Motoyama,Sayuri Kitagawa,Yuko Yoshikawa,Ryuji Kato,Yasuaki Kawarasaki +8 more
TL;DR: The characterize of substrate multispecificity of Ptr2p, a major peptide transporter of Saccharomyces cerevisiae, using a dipeptide library provides an important clue to the development of highly absorbable peptides and their derivatives including peptide-like drugs.
Parametric analysis of colony morphology of non-labelled live human pluripotent stem cells for cell quality control.
Ryuji Kato,Megumi Matsumoto,Hiroto Sasaki,Risako Joto,Mai Okada,Yurika Ikeda,Kei Kanie,Mika Suga,Masaki Kinehara,Kana Yanagihara,Yujung Liu,Kozue Uchio-Yamada,Takayuki Fukuda,Hiroaki Kii,Takayuki Uozumi,Hiroyuki Honda,Yasujiro Kiyota,Miho Furue +17 more
TL;DR: The quantitative evaluation method provides a biological definition of ‘hPSC colony morphology’, permits the non-invasive monitoring of hPSC conditions and is particularly useful for detecting variations in hPSCs heterogeneity.
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Size dependent heat generation of magnetite nanoparticles under AC magnetic field for cancer therapy.
Jun Motoyama,Toshiyuki Hakata,Ryuji Kato,Noriyuki Yamashita,Tomio Morino,Takeshi Kobayashi,Hiroyuki Honda +6 more
TL;DR: Two maximum SAR value stand for the heating mechanism of magnetite nanoparticles represented by hysteresis loss and relaxation loss in all ranges of applied AMF frequency and those values increased followed by the intensity of AMF power.