Fermentation Physiology, Fermentation Technology; Omics Technology; Metabolic Engineering

  • 13:00 (3Hp01)
    Metagenomic analysis of metabolic communities in complex microbiota of “Nukadoko”
    …… ○Yuri Koga1, Akari Shinoda1, Shunsaku Sugiura2, Hiroshi Kimura3, Jiro Nakayama1 (1Grad. Sch. Bioresour. Bioenviron. Sci., Kyushu Univ., 2Pickle Funct. Lab., Tokai Pickles Co., 3Kitakyushu Kokura Nukadoko Nukadaki Study Group)
  • 13:12 (3Hp02)
    Spatial transcriptome technology to detect single nucleotide variants
    …… ○Soichiro Asami, Reza Kalhor (Dept. Biomed. Eng., Sch. Med.)
  • 13:24 (3Hp03)
    Transcriptome analysis in beetle larval enlargement by feeding on thermophilic fermentation
    …… ○Futo Asano, Taira Miyahara, Hiroaki Kodama (Fac. Horticul., Chiba Univ.)
  • 13:36 (3Hp04)
    Expression of Delta-rhodopsin on yeast vacuolar membrane for improvement of energy utilization efficiency and application to bioproduction
    …… ○Kaoru Daicho, Yoko Hirono, Hiroshi Kikukawa, Kentaro Tamura, Kiyotaka Hara (Grad. Sch. Integr. Pharm. Nutr. Sci., Univ. Shizuoka)
  • 13:48 (3Hp05)
    Applications of a light-driven proton pump to enhance the weak acid tolerance and bioproduction in Escherichia coli
    …… ○Yuma Kobayashi1, Mikoto Sano1, Yoko Hirono2, Fumio Matsuda1, Jun Ishii3, Kiyotaka Hara2, Hiroshi Shimizu1, Yoshihiro Toya1 (1Grad. Sch. IST, Osaka Univ., 2Sch. Food Nutr. Sci., Univ. Shizuoka., 3EGBRC, Kobe Univ.,)
  • 14:00  Break
  • 14:12 (3Hp06)
    Identification of a novel NADPH regeneration reaction using a fluorescence sensor in Escherichia coli
    …… Koichiro Ueno, Shogo Sawada, Mai Ishibashi, Yoshiki Kanda, ○Yoshihiro Toya, Hiroshi Shimizu (Grad. Sch. IST, Osaka Univ.)
  • 14:24 (3Hp07)
    Development of metabolic flux repression technology targeting multiple enzymes based on optogenetics
    …… ○Shota Sakurai, Yoshihiro Toya, Hiroshi Shimizu (Grad. Sch. IST, Osaka Univ.)
  • 14:36 (3Hp08)
    Optogenetic regulation of metabolic flux distribution by irradiating multicolor lights in Escherichia coli
    …… ○Hayato Akagi, Hiroshi Shimizu, Yoshihiro Toya (Grad. Sch. IST, Osaka Univ.)
  • 14:48 (3Hp09)
    Application of optogenetic metabolic flux control for 1,3-propanediol production in Escherichia coli
    …… ○Suwa Kawanishi, Shota Sakurai, Masashi Tsukamoto, Hiroshi Shimizu, Yoshihiro Toya (Grad. Sch. IST, Osaka Univ.)
  • 15:00 (3Hp10)
    Analysis on the regulatory mechanism of expression of the sulfate assimilation pathway gene clusters in the thermophilic and hydrogen-oxidizing bacterium Hydrogenobacter thermophilus
    …… ○Yasuhide Asano1, Masafumi Kameya1,2, Hiroyuki Arai1,2, Masaharu Ishii1,2 (1Grad. Sch. Agric. Life Sci., Univ. Tokyo, 2CRIIM, Univ. Tokyo)
  • 15:12  Break
  • 15:24 (3Hp11)
    Screening of genes and promoters activating bioflocculant production in Citrobacter spp.
    …… ○Ryota Kuribayashi, Mana Morishige, Hidehiro Ishizawa, Masahiro Takeo (Grad. Sch. Eng., Univ. Hyogo)
  • 15:36 (3Hp12)
    Screening for multicopy suppressors of 2-deoxyglucose sensitivity of pyruvate decarboxylase mutant in Saccharomyces cerevisiae
    …… ○Wataru Nomura, Mayu Kubota, Ryusei Uda, Yoshiharu Inoue (Grad. Sch. Agric., Kyoto Univ.)
  • 15:48 (3Hp13)
    Development of a method to analyze the proteins associated with the autonomous central dogma
    …… ○Chisato Nishizawa1, Shunsuke Aburaya2, Yuishin Kosaka1,3, Kenji Sugase1, Wataru Aoki4,5,6 (1Grad. Sch. Agric., Kyoto Univ., 2Med. Inst. Bioreg., Kyushu Univ., 3Japan Society for the Promotion of Science, 4Grad. Sch. Eng., Osaka Univ., 5JST FOREST, 6KIST-BIC)
  • 16:00 (3Hp14)
    Cysteine redox proteomic analysis under different potential environments
    …… ○Kenya Tanaka1,2, Akihiko Kondo1,2,3,4, Tomohisa Hasunuma1,2,3 (1EGBRC, Kobe Univ.,, 2Grad. Sch. Sci. Technol. Innov., Kobe Univ., 3CSRS, RIKENS, 4Grad. Sch. Eng, Kobe Univ.)
  • 16:12 (3Hp15)
    Effect of yeast extract on the growth of lactic acid bacteria
    …… ○Yuki Saito, Misa Tomitaka, Tadayoshi Katsumata, Koshiro Futada, Yuki Tawada, Kazuhiro Fukano, Zhe Zhou (Mitsubishi Corporation Life Sciences Ltd.)
  • 16:24 (3Hp16)
    ADC58, an antibiotic that selectively kills Pseudomonas aeruginosa was discovered from nematode symbiont Photorhabdus khanii
    …… ○Yu Imai1,2, Sangkeun Son2, Libang Liang2, Michael Gates2, Miho Mori2, Meghan Ghiglieri2, Chandrashekhar Honrao3, Xiaoyu Ma3, Jason Guo3, Kim Lewis2 (1Inst. Biomed. Sci., Shinshu Univ., 2Antimicrobial Discov. Cent., Northeastern Univ., 3Cent. for Drug Discov., Northeastern Univ.)