[Oral Session] Enzymology, enzyme

○ Denotes Presenter.

  • 13:54 PC Checking time

Moderators: Toyokazu Yoshida, Hirotoshi Matsumura

  • 14:06 (2Lp01)
    Methylsalicylic Acid Production by Salicylate Decarboxylase Improved through Site-directed Mutagenesis
    ……○Mana Ishihara, Masahiro Araki, Yoshitaka Ishii, Kohtaro Kirimura (Sch. Adv. Sci. Eng., Waseda Univ.)
     
  • 14:18 (2Lp02)
    Analysis of Reaction Mechanism for Nitrile Hydratase Serial Femtosecond Crystallography
    ……○Hideki Hayashi1, Haruka Hojo1, Hirotoshi Matsumura1, Nobuaki Ogawa1, Kushi Nomura2, Takehiko Tosha2, Noritugu Jou3, Keiichi Noguchi4, Masafumi Yohda4, Masafumi Odaka1 (1Grad. Sch. Eng., Sci., Akita Univ.,2RIKEN Spring-8 Center,3Grad. Sch. Life Sci., Univ. Hyogo.,4Grad. Sch. Eng., Tokyo Univ. Agric. Technol.)
     
  • 14:30 (2Lp03)
    in silico screening of nitrilase by INTMSAlign_Angler
    ……○Risa Inoue1, Shogo Nakano2, Suguru Shinoda1, Yasuhisa Asano1 (1Biotechnol. Res. Center, Toyama Pref. Univ.,2Sch. Food Nutr. Sci., Univ. Shizuoka.)
     
  • 14:42 (2Lp04)
    Screening of microorganisms catalyzing S-selective oxidation of 2, 2 -Disubstituted propanediols
    ……○Shigeru Shimizu1, Hiroshi Kikukawa2, Yoshihiko Yasohara3, Noriyuki Ito3, Koichi Mitsukura2, Toyokazu Yoshida2 (1Grad. Sch. Eng., Gifu Univ.,2Fac. Eng., Gifu Univ.,3Kaneka corp.)
     
  • 14:54 (2Lp05)
    Synthesis of pyrogallol using gallic acid decarboxylase
    ……○Fumika Oe1, Yoshiki Okamura1, Hiroshi Kikukawa2, Koichi Mitsukura2, Toyokazu Yoshida2 (1Grad. Sch. Eng., Gifu Univ.,2Fac. Eng., Gifu Univ.)
     
  • 15:06 (2Lp06)
    Stereoselective hydrolysis of diethyl malonates by microbial enzyme
    ……○Hiroshi Kikukawa1, Fumihiro Ukai2, Yosuke Murakami2, Hiroshi Kawabata3,4, Ryoma Miyake3, Koichi Mitsukura1, Toyokazu Yoshida1 (1Fac. Eng., Gifu Univ.,2Dept. Biomol. Sci., Grad.sch.Eng.,Gifu Univ.,3Mitsubishi Chemical Corp.,4API Corp.)
     
  • 15:18 PC Checking time

Moderators: Daisuke Umeno, Hikaru Seki

  • 15:30 (2Lp07)
    Biochemical characterisation Fumarase C properties from a unicellular cyanobacterium demonstrates substrate specificity altered by an amino acid substitution.
    ……○Noriaki Katayama, Takashi Osanai (Sch. Agric., Meiji Univ.)
     
  • 15:42 (2Lp08)
    Directed evolution of botryococcene biosynthetic pathways for altered product specificity
    ……○Kazuki Tada, Kouji Sakamoto, Shigeko Kawai, Kyoichi Saito, Daisuke Umeno (Grad. Sch. Adv. Integr. Sci., Chiba Univ.)
     
  • 15:54 (2Lp09)
    Identification of residues essential for the function of a cyanobacterial enzyme related to alkane biosynthesis
    ……○Hisashi Kudo, Masashi Nomura, Yuuki Hayashi, Munehito Arai (Grad. Sch. Arts Sci., Univ. Tokyo)
     
  • 16:06 (2Lp10)
    High-throughput screening of highly active mutants of acyl-ACP reductase by visualizing in vivo enzyme activity
    ……○Yuuki Hayashi, Munehito Arai (Grad. Sch. Arts Sci., Univ. Tokyo)
     
  • 16:18 (2Lp11)
    Identification of key residue determining product regioselectivity of Medicago truncatula beta-amyrin C30-oxidase
    ……○Much Zaenal Fanani1, Ery Odette Fukushima1, Satoru Sawai2, Kiyoshi Ohyama2,3, Hikaru Seki1, Kazuki Saito2,4, Toshiya Muranaka1 (1Dept. Biotechnol., Grad. Sch. Eng., Osaka Univ.,2RIKEN CSRS.,3Dept. Chem. Mat. Sci., TITECH.,4Grad. Sch. Pharm. Sci., Chiba Univ.)

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