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25th SCEJ Students Meeting (online, 2023)

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Most recent update: 2023-03-16 14:37:10
TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Biochemical engineering
(9:32–10:44) (Chair: Fukuda Shigeharu, Nomura Toshiyuki)
9:329:44G02Lactic acid production from different carbon sources in methylotrophic yeast
(Kobe U.) *Suzuki S., Hirohata R., Nakamura Y., Itou Y., Kitano M., Tominaga M., Nakasone H., Kondou A., Ishii J.
bioproduction
biotechnology
yeast
7-a376
9:449:56G03Measuring speed ofproteolytic enzyme being activated and influence of activator
(Kozu Senior H.S.) Tsuda Honoka
proteolytic enzyme
lactate drhydrogenase
Fructose 1,6-bisphosphate
5-a140
9:5610:08G04Let's go Activated Charcoal !¡ÁWhat are the effects of activated charcoal¡Á
(Sakushingakuin H.S.) *Hoshino Fuuka, *Sasaki Raura, *Yabuki Shiori, Tsukubo Rina, Ueno Yuki, Hosino Kirara, Matsushita Miyu
activated charcoal
amino acid
7-b192
10:0810:20G05Preparation of antigen-coupled multi-lamellar vesicles (MLVs) by use of glutaraldehyde for biopanning selection
(Kyoto Inst. Tech.) *Yokoyama Fuki, Kawaguchi Taiki, Nguyen Mihn-Ngoc, Horiuchi Jun-ichi, Kumada Yoichi
Liposomes
antigen coupling
glutaraldehyde
7-c261
10:2010:32G06Design and characterization of fusion proteins for identification of nitorocelllose-binding peptide
(Kyoto Inst. Tech.) *Yamamoto yodai, Nita Makoto, Fukui Natsuha, Horiuchi Jun-ichi, Kumada yoichi
nitorocellulose-binding peptide
lactoferrin
fusion protein
7-a194
10:3210:44G07Development of a method for the preparation of medical hydrogels using protein-porphyrin complexes
(NITS) *Moriuchi H., Moriyama K.
Hydrogel
Protein
Porphyrin
7-e357
10:4410:50Break
Biochemical engineering
(10:50–12:02) (Chair: Fukuda Shigeharu, Nomura Toshiyuki)
10:5011:02G09Preparation of virus-like particles for rapid screening of recombinant antibody fragments
(Kyoto Inst. Tech.) *Tabata Mei, Tatakizawa Go, Horiuchi Jun-ichi, Kumada Yoichi
Virus-like particles
Baculovirus-Insect cell system
Rapid preparation
7-c267
11:0211:14G10Controlling antigen-binding affinity of VHH antibody by point mutation of CDR4
(Kyoto Inst. Tech.) *Mihara Akihiro, Numata Tatunori, Takahashi Asuka, Horiuchi Jun-ichi, Kumada Yoichi
VHH
CDR4
antigen-binding affinity
7-a287
11:1411:26G11Extraction and utilization of egg antibodies
(Tennoji H.S.) *Hagi Ryoutaro, *Ueda Michiko, *Fukumitsu Rin, *Furukawa Taichi, *Takamori Akitomo
Antibodies
7-c355
11:2611:38G12The action of ascorbic acid oxidase and conditions for its inactivation using food
(Nanao H.S.) *Mukose Sara, *Hirosawa Yura, *Fukui Ryusuke, Hamada Kanta
ascorbic acid oxidase
inactivation
food
7-h68
11:3811:50G13Effect of Pleurotus ostreatus cultivation by coffee bean dreggs focused on additional fertilizer or caffeine
(NIT Oyama colledge) *Tozawa Akari, Inoue Akari, Tanaka Akiko, Degawa Tsuyoshi, Tanaka Takakuni
coffee bean dregg
Pleurotus ostreatus
7-h82
11:5012:02G14Alpha of starch-containing foods
(Tamashima H.S.) *hatano sinngo, *siozi haruhito, *katou yurina, *sasaki kairi, *yasuda ayaka
alpha
starch
rice
7-h144
12:0213:00Lunch break
Biochemical engineering
(13:00–14:12) (Chair: Takeda Kazuhiro, Yoshimoto Noriko)
13:0013:12G20Aerobic cultivation of lipid assimilating yeast on whey of lactate fermented milk.
(Niigata Inst. Tech.) *Takeuchi A., Suzuki H., Yoshikura R., (Niigata Inst. Tech) Kubota M., (Niigata Inst. Tech.) Nihira T., Takesono S., (Tsukuba U.) Nakajima T., (Lab. Tsukuba Env. Microb.) Shigeno T., (Niigata Inst. Tech) Onodera M.
whey
lipid assimilating yeast
aerobic cultivation
7-a147
13:1213:24G21Stretch-resistant rice flour noodles
(Ryu-1.SHS) *Yoita K., *Tukahara K., *Sato Y., *Moriwaki I.
rice noodles
resistance to growth
acid and base
7-h188
13:2413:36G22Why coffee beans turn black during the roasting process
(Tamagawa Academy) Tomiya H.
coffee
Maillard reaction
caramelization
7-h299
13:3613:48G23Change of marshmallows due to atmospheric pressure II
(Nirasaki H.S.) *Ono manato, *Baba Kosuke, *Motizuki Youta
multi-phase reaction
beta-cyclodextrin
13C NMR
7-h266
13:4814:00G24Production of Cellurose Nanofibers from Food Waste
(TENNOJI H.S.) *Tanaka Mayuka, *Kanagawa Takafumi, *Hayama Juri, *Matsumura Satoshi
Cellulose nanofibers
Food waste
Defibration
7-i223
14:0014:12G25Secretory production of PETase by Streptomyces thermoviolaceus and its characterization
(Kobe U.) *Sakamoto Daisuke, Yara Minami, Kobayashi Tomoya, Ota Katsumi, Ogino Chiaki
actinomycete
PET
mutation
7-a222
14:1214:20Break
Biochemical engineering
(14:20–15:44) (Chair: Takeda Kazuhiro, Yoshimoto Noriko)
14:2014:32G27Reduce milk allergy!
(Tennoji H.S.) *Shioyu Koharu, *Oono Kotoha, *Takagishi Shino, *Masuda Chinatsu
Antigen
Protein
SDS-PAGE
7-c356
14:3214:44G28Analysis of chemical content of green tea
(Tamagawa Academy) Kubota C.
green tea
tannin
amino acid
7-h301
14:4414:56G29Investigation of a substitute material for egg white meringue using chickpea meringue
(Hiroshima U. H.S.) *Kobori Ruka, *Saito Mao, *Nakama Raito, *Harada Manato
meringue
chickpea
whipping
7-h399
14:5615:08G30Enhanced xylitol production based on co-cultivation of xylitol-producing yeast and flocculent yeast
(Kyoto Inst. Tech.) *Yamawaki Taiki, Kumada Yoichi, Horiuchi Junichi
xylitol-producing yeast
flocculent yeast
co-cultivation
7-a381
15:0815:20G31water purification by duckweed
(Yamanashi Eiwa H.S.) *Takahashi Kanna, *Kumagai Natsuki
bio ethanol
duckweed
water purification
7-g243
15:2015:32G32Factor analysis of edible oil oxidative degradation by multifactorial approach
(Tohoku U.) *Yoshida Yuta, Hiromori Kousuke, Shibasaki-Kitakawa Naomi, Takahashi Atsushi
multifactorial approach
oxidative stability
edible oil
7-h325
15:3215:44G33Developing of heat resistant enzyme for production of biodiesel
(Kobe U.) *Mohammad Afiq Ropandi, Sakamoto Daisuke, Yara Minami, Kobayashi Tomoya, Ogino Ciaki
Biodiesel
Lipase
Thermal-resistant
7-b254

Technical program
25th SCEJ Students Meeting (online, 2023)

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Most recent update: 2023-03-16 14:37:10
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