¥¡¼¥ï¡¼¥É:pyruvate ¤Î¸¡º÷·ë²Ì / 1 1 - 5 / 5 <<< 1 >>> / 1 1 - 5 / 5 <<< 1 >>> 2C2am07 2026/03/10 10:12 C2 Clostridium paraputrificum¤Î¥Ô¥ë¥Ó¥ó»ÀÂå¼Õ·ÐÏ©¤Î²òÀϤȥ¥Á¥ó¤«¤é¤Î¿åÁÇ¥¬¥¹À¸»º¸þ¾å¤Ø¤Î±þÍÑ Analysis of metabolic pathway of pyruvate in Clostridium paraputrificum and its application for bio-hydrogen production from chitin ÃÝÆâ «º»¡¢¾¾Èø ºÚ¡¹²Ö¡¢À¾Â¼ ¤·¤ª¤ê¡¢Ô¢É𠳨Èþ¡¢¡ûÌÚ¼ ůºÈ Tabasa Takeuchi, Nanaka Matsuo, Shiori Nishimura, Emi Kunitake, ¡ûTetsuya Kimura »°½ÅÂ籡À¸»ñ Mie Univ. 2D1am04 2026/03/10 09:36 D1 ¥Æ¥¹¥È¥¹¥Æ¥í¥óÄã²¼¤ÏIJÆâºÙ¶ÝͳÍè¥Ô¥ë¥Ó¥ó»À¤ÎÁý²Ã¤ò²ð¤·¤Æ¥Õ¥ë¥¯¥È¡¼¥¹Í¶Æ³À»éËôΤòÁê¾èŪ¤Ë°²½¤µ¤»¤ë Testosterone deficiency synergistically exacerbates fructose-induced hepatic steatosis via gut microbiota–derived pyruvate in mice ¡ûüⶶ ±û¼ù1¡¢¸¶ÅÄ Ä¾¼ù1,2,3¡¢Â®¿å ÍÛÊ¿2¡¢ERDENETSOGT Dungubat4¡¢Ãæß· ¾»Èþ1,2¡¢ËÌÉ÷ ÃÒÌé1,2¡¢¿ùËÜ ·½°ìϺ5,6¡¢´¥ Çî2,7¡¢µÈ¸¶ ±É¼£3,8¡¢¹â¶¶ ˧µ×4¡¢»³ÃÏ Î¼°ì1,2,6 ¡ûHiroki TAKAHASHI1, Naoki HARADA1,2,3, Yohei HAYAMIZU2, Dungubat ERDENETSOGT4, Masami NAKAZAWA1,2, Tomoya KITAKAZE1,2, Keiichiro SUGIMOTO5,6, Hiroshi INUI2,7, Eiji YOSHIHARA3,8, Yoshihisa TAKAHASHI4, Ryoichi YAMAJI1,2,6 1Âçºå¸øÂ籡ÇÀ¡¢2ÂçºåÉÜÂçÀ¸Ì¿´Ä¶¡¢3¥é¥ó¥É¥¥¹¥È¸¦µæ½ê¡¢4Åìµþ°å²ÊÂçʬ»ÒÉÂÍý¡¢5Ĺ²¬¹áÎÁ¡¢6Âçºå¸øÂçÀ¸»ñ¥»¥ó¥¿¡¼¡¢7Âç¼êÁ°Âç·ò¹¯±ÉÍÜ¡¢8¥«¥ê¥Õ¥©¥ë¥Ë¥¢Âç¥í¥µ¥ó¥¼¥ë¥¹¹» 1Grad. Sch. Agric., Osaka Metropol. Univ., 2Life Environ. Sci., Osaka Pref. Univ., 3The Lundquist Institute, 4Dept. Mol. Pathol., Tokyo Med. Univ., 5Nagaoka Co. Ltd., 6R&D BRC, Osaka Metropol. Univ., 7Sch. Nutr Health., Otemae Univ., 8UCLA 2D5am09 2026/03/10 10:48 D5 ¹È¿§ÈóⲫºÙ¶ÝRhodobacter capsulatus¤Ë¤ª¤±¤ë¥Ô¥ë¥Ó¥ó»À¥ª¥¥·¥É¥ì¥À¥¯¥¿¡¼¥¼¤Îµ¡Ç½²òÀÏ Functional analysis of pyruvate oxidoreductase from the purple non-sulfur bacterium Rhodobacter capsulatus ¡ûÀ¶¿å ů1,2¡¢»ûËÜ ÍÛɧ1¡¢¾ëÅç Æ©2¡¢´¥ ¾¹Ô1,3 ¡ûtetsu SHIMIZU1,2, haruhiko TERAMOTO1, toru JOJIMA2, masayuki INUI1,3 1RITE¡¢2¶áÂç³ØÇÀ¡¢3ÆàÎÉÀèüÂç¥Ð¥¤¥ª 1RITE, 2Kindai Univ., 3NAIST 2S2am04 2026/03/10 09:36 S2 ½Ð²ê¹ÚÊì¥Ô¥ë¥Ó¥ó»À¥Ç¥«¥ë¥Ü¥¥·¥é¡¼¥¼·ç»³ô¤Ë¸«½Ð¤·¤¿2-¥Ç¥ª¥¥·¥°¥ë¥³¡¼¥¹´¶¼õÀ¤Î²òÀÏ Analysis of sensitivity of pyruvate decarboxylase deletion mutant to 2-deoxyglucose in budding yeast ¡ûÌî¼ ÏË1¡¢µ×ÊÝÅÄ Ëãͧ2¡¢ïð Âç²Æ1¡¢Ãæ¼ ¿ÎÈþ2¡¢ºÙ¸« ¾¼1¡¢°æ¾å Á±À²2 ¡ûWataru NOMURA1, Mayu KUBOTA2, Daika SEKI1, Hitomi NAKAMURA2, Akira HOSOMI1, Yoshiharu INOUE2 1¿®½£Â硦ÇÀ¡¢2µþÂ籡ÇÀ 1Shinshu Univ., 2Kyoto Univ. 4D5pm10 2026/03/12 15:24 D5 Ķ¹¥Ç®À¥¢¡¼¥¥¢Thermococcus kodakarensis¤Ë¤ª¤±¤ë¥¢¥¹¥Ñ¥é¥®¥ó»ÀÀ¸¹çÀ®·ÐÏ© Aspartate biosynthesis pathway in the hyperthermophilic archaeon Thermococcus kodakarensis SU Yu1¡¢¡ûÆ»À¹ ͵ÂÀ1¡¢Ê¡»³ ͨÅÍ2¡¢ÉÛ±º ÂóϺ2¡¢À׸« À²¹¬1 Yu SU1, ¡ûYuta MICHIMORI1, Yuto FUKUYAMA2, Takuro NUNOURA2, Haruyuki ATOMI1 1µþÂ籡¹©¡¢2JAMSTEC 1Kyoto Univ., 2JAMSTEC / 1 1 - 5 / 5 <<< 1 >>> / 1 1 - 5 / 5 <<< 1 >>>
