ITO Hiroyuki

J-GLOBAL         Last updated: Dec 24, 2019 at 16:17
ITO Hiroyuki
National Institute of Technology,Akita College
School of Creative System Engineering Department of Chemical and Biological Engineering
Job title
(BLANK)(Hokkaido University)

Research Interests


Research Areas


Published Papers

Efficient solvent- and catalyst-free syntheses of imine derivatives applying the pressure reduction technique: Remarkable change of the reaction rate with the phase transition
Shoko Suzuki, Shujiro Sakaki, Shinji Ishizuka, Tomomichi Nishino, Hiroyuki Ito, Risehiro Nonaka, Motoyoshi Noike, Takeshi Kodama, Hajime Nozaka, Tsuneyuki Sato, Hitoshi Agematsu, Koichi Maruyama, Shun Oyamada, Takashi Kuroishi, Kazuma Sasaki, Kei Yagawa, Mami Yoshioka, and Yasuo Yokoyama
Green and Sustainable Chemistry   8(2) 167-179   May 2018   [Refereed]
Perfect solvent- and catalyst-free syntheses of imine derivatives using the pressure reduction technique
Shoko Suzuki, Hiroyuki Ito, Shinji Ishizuka, Risehiro Nonaka, Motoyoshi Noike, Takeshi Kodama, Kenji Funaki, Misuho Taguchi, Taisei Kagaya, Sayaka Sato, Guillaume Redler, and Yasuo Yokoyam
Green and Sustainable Chemistry   9(4) 105-118   Oct 2019   [Refereed]

Books etc

Increasing rice productivity and yield by manipulation of starch synthesis. In Rice Biotechnology: Improving Yield, Stress Tolerance and Grain Quality
John Wiley and Sons   May 2001   
Increasing rice productivity by manipulation of starch biosynthesis during seed development. In Feeding a World Population of more Than Eight Billion People: A Challenge to Science
Oxford University Press   Jul 1998   
Engineering plant starches by the generation of modified plant biosynthetic enzymes. In Engineering Crops for Industrial End Uses
Portland Press Ltd.   Apr 1998   


Joint Research on Development of Breeding Materials for pathogen Resistance of Rice
1998 - 2000

Research Grants & Projects

Study on peroxidases in higher plants
Grant-in-Aid for Scientific Research
Project Year: 1990 - 2010
Study on the mechanism of starch biosynthesis in higher plants.
Grant-in-Aid for Scientific Research
Project Year: 1996 - 2025


MboI restriction-modification genes
5,340733 (US patent)
Nsp7524V restriction-modification genes
5,441,881 (US patent)
Regulatory mutants of ADP-glucse pyrophosphorylase and related compositions and methods
WO 99/07841
Rice peroxidases with various characteristics
WO 01/42475 A1