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2C05-01
2023/03/15 11:00
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¥×¥í¥Æ¥¢¡¼¥¼¤Ë¤è¤ëÀ®½Ï²½¹©Äø¤òɬÍפȤ·¤Ê¤¤ÁÈ´¹¤¨L-¥°¥ë¥¿¥ß¥ó»À¥ª¥­¥·¥À¡¼¥¼¤Î³«È¯
Development of recombinant L-glutamate oxidase requiring no maturing process by protease.
¡ûµ×À¤ ·½ÂÀϯ¡¢°ìÌø ÆØ
¡ûKeitaro KUZE, Atsushi ICHIYANAGI
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Kikkoman Corp. R&D Div.
2C05-02
2023/03/15 11:00
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à C
L-¥°¥ë¥¿¥ß¥ó»À¥ª¥­¥·¥À¡¼¥¼¥Û¥â¥í¥°¤ÎÁÈ´¹¤¨È¯¸½¤ª¤è¤ÓÂÑÇ®²½
Recombinant expression and thermostabilization of L-glutamate oxidase homologue
¡ûÆüµÍ ãºÈ¡¢µ×À¤ ·½ÂÀϺ¡¢°ìÌø ÆØ
¡ûTatsuya HIZUME, Keitaro KUZE, Atsushi ICHIYANAGI
¥­¥Ã¥³¡¼¥Þ¥ó¡¡¸¦³«ËÜÉô
Kikkoman Corp. R&D Div
2C05-03
2023/03/15 11:00
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à C
¥Õ¥é¥Ó¥ó°Í¸À­Æý»À¥Ç¥Ò¥É¥í¥²¥Ê¡¼¥¼¤ÎÅÅ»ÒÅÁ㵡¹½¤Î²òÀÏ
Analysis of the electron transfer mechanism of flavin-dependent lactate dehydrogenase
¡ûÎëÌÚ ÎËÂÀ¡¢îè Í۲𡢰ìÌø ÆØ
¡ûRyota SUZUKI, Yosuke MASAKARI, Atsushi ICHIYANAGI
¥­¥Ã¥³¡¼¥Þ¥ó¸¦³«ËÜÉô
Kikkoman Corp. R&D Div.
2C05-04
2023/03/15 11:00
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à C
¿Ý»À¶Ý¤Î¸ÆµÛº¿¹ÚÁǤˤè¤ëÅŵ¤²½³Ø¥«¥¹¥±¡¼¥ÉÈ¿±þ·Ï¤Î³«È¯
Development of bioelectrochemical cascade system by respiratory chain dehydrogenases from Gluconobacter oxydans
¡û­Ω Âçµ¹1¡¢Á×Ï ·ÄÀ¹1¡¢Ë̶ù Í¥´õ1¡¢Çò°æ Íý1¡¢²ÃǼ ·ò»Ê2
¡ûTaiki ADACHI1, Keisei SOWA1, Yuki KITAZUMI1, Osamu SHIRAI1, Kenji KANO2
1µþÂ籡ÇÀ¡¢2µþÂ绺´±³ØÏ¢·ÈËÜÉô
1Graduate School of Agriculture, Kyoto Univ., 2Center for Advanced Science and Innovation, Kyoto Univ.
2C05-05 ¥×¥í¥°¥é¥à¸¡º÷¥µ¥¤¥È¸ø³«»þ¤ÎÆâÍƤ«¤éÊѹ¹¤¬Æþ¤Ã¤Æ¤¤¤Þ¤¹
2023/03/15 11:00
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ĶÂÑÇ®À­¥¢¥ë¥É¡¼¥¹Ã¦¿åÁǹÚÁǤؤÎÉô°ÌÆðÛŪÊÑ°ÛƳÆþ¤Ë¤è¤ëKm²þÊÑ
Site-directed mutagenesis for low-Km hyperthermophilic aldose sugar dehydrogenas
¡ûÂç·î ͵¹á»Ò1¡¢üâ¼ ±Ç°ìϺ1¡¢ºä¸µ Çî¾¼1¡¢Î¤Â¼ ÉðÈÏ1¡¢Ý¯Äí ½Õɧ2¡¢ÂçÅç ÉÒµ×3¡¢Ëö ¿®°ìϯ1
¡ûYukako OTSUKI1, Eiichiro TAKAMURA1, Hiroaki SAKAMOTO1, Takenori SATOMURA1, Haruhiko SAKURABA2, Toshihisa OHSHIMA3, Shin-ichiro SUYE1
1Ê¡°æÂç³Ø¡¢2¹áÀîÂç³Ø¡¢3Âçºå¹©¶ÈÂç³Ø
1Fukui Univ., 2Kagawa Univ., 3Osaka Institute of Technology
2C05-06
2023/03/15 11:00
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Ë쾮˦¤ËÆâÊñ¤µ¤ì¤¿¥®»Àæ¿åÁǹÚÁǤγèÀ­É¾²Á
Activity evaluation of membrane vesicle encapsulated formate dehydrogenase
¡û¥µ¥ô¥£¥¸ ¥È¡¼¥Þ¥¹¹¸ÍÎ1¡¢Ë­Ê¡ ²íŵ2,3¡¢Ìî¼ Īɧ2,3¡¢ÆÁǼ µÈ½¨2,4
¡ûThomasKouyou SAVAGE1, Masanori TOYOFUKU2,3, Nobuhiko NOMURA2,3, Yoshihide TOKUNOU2,4
1ÃÞÇÈÂ籡À¸Êª»ñ¸»²Ê³Ø¡¢2ÃÞÇÈÂ籡À¸Ì¿´Ä¶­·Ï¡¢3ÈùÀ¸Êª¥µ¥¹¥Æ¥Ê¥Ó¥ê¥Æ¥£¸¦µæ¥»¥ó¥¿¡¼¡¢4ʪ¼Á¡¦ºàÎÁ¸¦µæµ¡¹½
1Tsukuba Univ. Bio Resource Sciences, 2Tsukuba Univ. Life & Environmental Sciences, 3MiCS, 4NIMS
2C05-07
2023/03/15 11:00
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½¾Â°±ÉÍܺٶݤÎĶÄã±ÉÍܴĶ­¤Ç¤ÎÁý¿£¤ò°ú¤­µ¯¤³¤¹AdhX¤Ïpromiscuous¤Ê¥¢¥ë¥³¡¼¥ëæ¿å¹ÚÁǤǤ¢¤ë
AdhX, which causes the high-yield growth under oligotrophic conditions in heterotrophic bacteria, is a promiscuous alcohol dehydrogenase
¡û°ËÆ£ Ï¡¡¢±ÊÅÄ ÍµÆó¡¢ÂçÄÚ ²Å¹Ô
¡ûRen ITO, Nagata Yuji, Ohtsubo Yoshiyuki
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Tohoku Univ
2C05-08
2023/03/15 11:00
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Psedogluconobacter saccharoketogenesͳÍè¤Î¥¢¥ë¥³¡¼¥ë¥Ç¥Ò¥É¥í¥²¥Ê¡¼¥¼¤ÎÀ­¼Á
Propaties of alcohol dehydrogenase from Psedogluconobacter saccharoketogenes
¡û¶ÍÀ¸ ¹âÌÀ1¡¢°ËÆ£ ůÌé2¡¢ÀµÌÚ µ×À²2¡¢Æ£ÅÄ ¹§µ±2¡¢Â¼¾å ÍÎ1¡¢ðÐ´Ö ´ðÇî1¡¢ÌÚÁ¾ ÂÀϺ1
¡ûTakaaki Kiryu1, Tetsuya Ito2, Hisaharu Masaki2, Fujita Koki2, Murakami Hiromi1, Motohiro Shizuma1, Taro Kiso1
1Âçºå»º¶Èµ»½Ñ¸¦µæ½ê¡¢2±ö¿å¹ÁÀºÅü³ô¼°²ñ¼Ò
1Osaka Research Institute of Industrial Science and Technology, 2ENSUIKO Sugar Refining Co., Ltd.
2C05-09
2023/03/15 11:00
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à C
ÂçIJ¶Ý¤ÇÀ¸»º¤·¤¿¥Ò¥á¥Ä¥ê¥¬¥Í¥´¥±Í³Íè¥Ú¥ë¥ª¥­¥·¥À¡¼¥¼Prx34¤Ï²½³Øȯ¸÷»îÌô¤È¶¯¤¯È¿±þ¤¹¤ë
Recombinant peroxidase Prx34 from Physcomitrium patens strongly responds to chemiluminescence reagents
¡û°ËÆ£ ·ò»Ê1¡¢½©ÅÄ µá2
¡ûKenji ITO1, Motomu Akita2
1¶áµ¦Â籡¡¡À¸Êª¹©³Ø¡¢2¶áµ¦Âç¡¡À¸Êª¹©
1Major Biotech. Sci., Kindai Univ, 2Dept. Biotech. Sci., Kindai Univ.
2C05-10
2023/03/15 11:00
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Çò¿§Éåµàô»Ò¶Ý Phanerochaete chrysosporium ͳÍè salicylate monooxygenase ¤Îµ¡Ç½²òÀÏ
Functional analysis of salicylate monooxygenase from white-rot fungus Phanerochaete chrysosporium
¡ûÁáºä ¼Â²Æ¡¢ßÀÅè Ñ۹ȡ¢²ÃÆ£ ²í»Î¡¢»Ö¿å ¸µµü
¡ûMika HAYASAKA, Link HAMAJIMA, Masashi KATO, Motoyuki SHIMIZU
̾¾ëÂ籡ÇÀ
Meijo Univ.
2C05-11
2023/03/15 11:00
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¿åÁÇºÙ¶Ý Hydrogenophilus thermoluteolus TH-1 ¤ÎPHB¹çÀ®¤ÈPhaB¥Û¥â¥í¥°¤Îµ¡Ç½²òÀÏ
Functional analysis of PhaB homologs and PHB synthesis of Hydrogenophilus thermoluteolus TH-1
¡ûÃæÀî ¿Î°ìϯ1¡¢µµÃ« ¾­»Ë2,3¡¢¿·°æ ÇîÇ·2,3¡¢Àаæ Àµ¼£2,3
¡ûJinichiro NAKAGAWA1, Masahumi KAMEYA2,3, Hiroyuki ARAI2,3, Masaharu ISHII2,3
1ÅìÂçÇÀ¡¦À¸Ì¿²½³Ø¹©³Ø¡¢2ÅìÂ籡¡¦ÇÀÀ¸²Ê¡¦±þÀ¸¹©¡¢3ÅìÂçÈùÀ¸ÊªÏ¢·Èµ¡¹½
1Fac. Agric., Univ. Tokyo, 2Dept. Biotechnol., Univ. Tokyo, 3CRIIM, Univ. Tokyo
2C05-12
2023/03/15 11:00
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à C
¿·µ¬¤Ê¥Õ¥é¥Ó¥ó¹ÚÁǤ¬¿¨ÇÞ¤¹¤ë¥×¥í¥È¥«¥Æ¥¯»À¤Î¿å»À²½¤È¤½¤ÎÈ¿±þµ¡¹½
The mechanism study of hydroxylation of Protocatehuic acid by the novel flavoprotein
¡û¾¡ÌÚ ´õ1¡¢Ê¡Åç Φ2¡¢ËñÈø ½Ó²ð1¡¢¹ÓÀî ¹§½Ó2¡¢»³ÅÄ ÀéÁá2¡¢Éú¿® ¿ÊÌð2¡¢¹âë ľ¼ù1
¡ûNozomi KATSUKI1, Riku FUKUSHIMA2, Shunsuke MASUO1, Takatoshi ARAKAWA2, Chihaya YAMADA2, Shinya FUSHINOBU2, Naoki TAKAYA1
1ÃÞÇÈÂ硦À¸Ì¿´Ä¶­/MiCS¡¢2ÅìÂ籡¡¦ÇÀÀ¸²Ê¡¦±þÀ¸¹©
1Univ. of Tsukuba / MiCS, 2Univ. Tokyo
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