¹Ö±éÈÖ¹æ:5E¡¢Ê¬Îà:°ìÈÌ¹Ö±é ¤Î¸¡º÷·ë²Ì / 9 1 - 15 / 123 <<< 1 2 3 4 5 6 7 8 9 >>> / 9 1 - 15 / 123 <<< 1 2 3 4 5 6 7 8 9 >>> 5E001 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ¹³À¸Êª¼ÁÀ¸»º¤Î¤¿¤á¤ÎÊüÀþ¶Ý¿·µ¬±ÕÂÎÇÝÍÜË¡¤Î¸¡Æ¤ In Consideration to New Liquid Culture for Actinomycetes for Producing Antibiotics ¡û²ÏÌî ͵ÂÀ1¡¢Ä᳠ζÀ»2¡¢¿ÁÅÄ Í¦Æó1,2 ¡ûYUTA KONO1, RYUSEI TSURUGAI2, YUJI HATADA1,2 1ºë¶Ì¹©Â繩¡¢2ºë¶Ì¹©Â籡¹© 1Saitama Inst. of Tech, 2Grad. Saitama Inst. of Tech 5E002 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ¥¢¥ß¥Î»Àź²Ã¤Ë¤è¤ëStreptomyces sp. TSO12³ô¤Î¹³À¸Êª¼ÁÀ¸»º¤ÎͶƳ Induction of antibiotics production of Streptomyces sp. TSO12 strain by amino acid added ¡ûÄ᳠ζÀ»1¡¢²ÏÌî ͵ÂÀ2¡¢¿ÁÅÄ Í¦Æó1,2 ¡ûRYUSEI TSURUGAI1, Yuta KONO2, Yuji HATADA1,2 1ºë¶Ì¹©Â籡¹©¡¢2ºë¶Ì¹©Â繩 1Grad. Saitama Inst. of Tech, 2Saitama Inst. of Tech 5E003 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ÊüÀþ¶ÝStreptomyces diastaticus TUA-NKU25³ô¤ÎSurugamideÀ¸¹çÀ®°äÅÁ»ÒÇ˲õ¤¬±ö´¶¼õÀ¤È¾¤ÎÆó¼¡Âå¼Õ»ºÊªÀ¸»º¤ËµÚ¤Ü¤¹±Æ¶Á Effects of salt sensitivity and secondary metabolite production by disruption of surugamide biosynthetic gene of Streptomyces diastaticus strain TUA-NKU25. ¡ûÃÓ¾å ÂóËá1¡¢¾®Æ£ Èþ·î1¡¢ÌÚë ÌÐ2¡¢¾¾ÅÄ ¸¦°ì3¡¢ÏÆËÜ ÉÒ¹¬3¡¢³¤Ìî ÎÉÊå1¡¢ÀÐÀî ¿¹É×1¡¢¹ÓÀî ¸¼£4¡¢ÎëÌÚ ÉÒ¹°1 ¡ûTAKUMA IKEGAMI1, MIZUKI KOFUJI1, SHIGERU KITANI2, KENICHI MATSUDA3, TOSHIYUKI WAKIMOTO3, RYOUSUKE UNNO1, MORIO ISHIKAWA1, KENJI ARAKAWA4, TOSHIHIRO SUZUKI1 1ÅìÇÀÂ籡¾ú¤¡¢2ÀÄ»³³Ø±¡Â籡Íý¹©¡¢3ËÌÂçÌô¡¢4¹ÅçÂ籡Åý¹çÀ¸Ì¿ 1Tokyo Univ. Agric, 2Aoyama Gakuin Univ., 3Hokkaido Univ., 4Hiroshima Univ. 5E004 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ÊüÀþ¶ÝStreptomyces diastaticus TUA-NKU25³ô¤Î±ö°Í¸ŪÆó¼¡Âå¼Õ»ºÊªÀ¸»º¥á¥«¥Ë¥º¥à¤Î²òÀÏ Analysis of the mechanism of salt-dependent secondary metabolite production in Streptomyces diastaticus strain TUA-NKU25 ¡ûÅĸý Èþºù1¡¢¾®Æ£ Èþ·î1¡¢ÃÓ¾å ÂóËá1¡¢Âç³À æÆ2¡¢³¤Ìî ÎÉÊå1¡¢ÀÐÀî ¿¹É×1¡¢¹ÓÀî ¸¼£2¡¢ÎëÌÚ ÉÒ¹°1 ¡ûMIO TAGUCHI1, MIZUKI KOFUJI1, TAKUMA IKEGAMI1, SHO OGAKI2, RYOUSUKE UNNO1, MORIO ISHIKAWA1, KENJI ARAKAWA2, TOSHIHIRO SUZUKI1 1ÅìÇÀÂ籡¾ú¤¡¢2¹ÅçÂ籡Åý¹çÀ¸Ì¿ 1Tokyo Univ. Agric, 2Hiroshima Univ. 5E005 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì laeA°äÅÁ»ÒƳÆþ¤Ë¤è¤ësclerotinin A¤ÎñΥ¤È¤½¤ÎÀ¸Êª³èÀ¤Ë¤Ä¤¤¤Æ Isolation of sclerotinin A by introduction of laeA gene and its biological activity ¡ûËÜ´Ö ñ¥ÂÀ1,2¡¢·¯Åè °ª1,2¡¢²ÃÆ£ Áï1¡¢ËÙÆâ ¹ÈΤ3¡¢Êæ´£ Îè1,2¡¢Ëܾ± ²í»Ò1,2¡¢¾®Åç ͵µ®1,2¡¢¾ïÈ× ½ÓÇ·1,2¡¢¿û¸¶ ¾Ï¸ø1,2¡¢´ä·î Àµ¿Í1,2¡¢¹ÓÌÚ ¹¯»Ò4¡¢¹â¶¶ Íý4¡¢ÃÎÇ° Âó¼Â5¡¢±±°æ ·òϺ6¡¢°ËÆ£ ¹ÍÂÀϺ4¡¢Àõ¸« ¹Ô¹°1,2 ¡ûSota HONMA1,2, Aoi KIMISHIMA1,2, Satoshi KATO1, Akari HORIUCHI3, Rei HOKARI1,2, Masako HONSHO1,2, Hiroki KOJIMA1,2, Toshiyuki TOKIWA1,2, Akihiro SUGAWARA1,2, Masato IWATSUKI1,2, Yasuko ARAKI4, Tadashi TAKAHASHI4, Takumi CHINEN5, Takeo Usui6, Kotaro ITO4, Yukihiro ASAMI1,2 1ËÌΤÂ籡´¶À÷À©¸æ¡¢2ËÌΤÂçÂ缸¦¡¢3ËÌΤÂçÍý¡¢4¥¥Ã¥³¡¼¥Þ¥ó¡Ê³ô¡Ë¡¢5ÅìÂ籡Ìô¡¢6ÃÞÇÈÂçÀ¸Ì¿´Ä¶ 1Kitasato Univ., Drug discovery science, 2Omura Satoshi Memorial Inst., 3Kitasato Univ., SC., 4Kikkoman Corp., 5The Univ. of Tokyo, 6Tsukuba Univ. 5E006 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì »å¾õ¶ÝͳÍèÀ¸Êª³èÀʪ¼Áõº÷¤Ë¤ª¤±¤ëlaeAƳÆþÀïά¤ÎÍÍÑÀ laeA gene introduction strategy enabling the construction of a prolific fungal secondary metabolite library ¡û²ÃÆ£ Áï1¡¢·¯Åè °ª1,2¡¢ËÜ´Ö ñ¥ÂÀ1,2¡¢Ëܾ± ²í»Ò1,2¡¢¾®Åç ͵µ®1,2¡¢¾ïÈ× ½ÓÇ·1,2¡¢¿û¸¶ ¾Ï¸ø1,2¡¢ÌîÃæ ·ò°ì3¡¢¹ÓÌÚ ¹¯»Ò4¡¢¹â¶¶ Íý4¡¢°ËÆ£ ¹ÍÂÀϺ4¡¢Àõ¸« ¹Ô¹°1,2 ¡ûSatoshi KATO1, Aoi KIMISHIMA1,2, Sota HONMA1,2, Masako HONSHO1,2, Hiroki KOJIMA1,2, Toshiyuki TOKIWA1,2, Akihiro SUGAWARA1,2, Kenichi NONAKA3, Yasuko ARAKI4, Tadashi TAKAHASHI4, Kotaro ITO4, Yukihiro ASAMI1,2 1ËÌΤÂ籡´¶À÷À©¸æ¡¢2ËÌΤÂçÂ缸¦¡¢3Äëµþ²ÊÂçÀ¸Ì¿´Ä¶¡¢4¥¥Ã¥³¡¼¥Þ¥ó¡Ê³ô¡Ë 1Kitasato Univ., 2Omura Satoshi Memorial Inst., 3Teikyo Univ. of Science, 4Kikkoman Corp. 5E007 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì Âç·¿³¦ÌÌ¥Õ¥¡¡¼¥á¥ó¥¿¡¼¤Ë¤è¤ëÀ¸Êª³èÀsclerotiorin¤ÎÀ¸»º Production of bioactive sclerotiorin with a large-scale interface fermentor ¡û¾®ÅÄ Ç¦1¡¢·§ºê É÷²Æ1¡¢Â¼¾å è½»Ò1¡¢ÅÏî´ Á±ÍÎ2¡¢´ä·î Àµ¿Í2 ¡ûShinobu ODA1, Fuka KUMAZAKI1, Riko MURAKAMI1, Yoshihiro WATANABE2, Masato IWATSUKI2 1¶âÂô¹©Â祲¥Î¥à¸¦¡¢2ËÌΤÂçÂ缸¦ 1Kanazawa Inst. Technol., 2Kitasato Univ. 5E008 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì Ìý»é¹âÀ¸»º¹ÚÊì Rhodotorula toruloides ¤Ë¤ª¤±¤ë¿Ý»À¥ê¥Á¥¦¥àË¡¤Ë¤è¤ë·Á¼Áž´¹¸úΨ¤Î¸þ¾å Improved transformation efficiency in Rhodotorula toruloides by the lithium acetate method ¡ûúɸ¶ ÃÒÌé1¡¢±ü¼ ÃÎÀ¤2¡¢Â綶 µ®À¸2 ¡ûTomoya KUWAHARA1, Tomoyo OKUMURA2, Takao OHASHI2 1ÆàÎɸ©»ºÁí¥»¡¢2ÀÝÆîÂç 1Nara Pref. Inst. Indust. Dev., 2Setsunan Univ. 5E009 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì À¶¼ò¹ÚÊì¤ò½É¼ç¤È¤·¤¿Î¶Þ·¹á¡Ê¥¢¥ó¥Ö¥ì¥¤¥ó¡Ë¤Îȯ¹ÚÀ¸»º Fermentation of the ambergris (ambrein) in the sake yeast ¡ûÃÝ²Ö Ìɧ1¡¢³ë»³ ÃÒµ×2¡¢¾åÅÄ Â缡Ϻ3¡¢º´Æ£ ÅØ3 ¡ûToshihiko TAKEHANA1, Tomohisa KUZUYAMA2, Daijiro UEDA3, Tsutomu SATO3 1£Á£Ä£Å£Ë£Á ¥é¥¤¥Õ¥µ¥¤¥¨¥ó¥¹³«È¯¼¼¡¢2ÅìÂ籡ÇÀ¡¢3¿·Â籡ÇÀ 1ADEKA Corp., 2The Univ. of Tokyo, 3The Univ. of Niigata 5E010 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì rmCombi-OGABTMË¡¤Ë¤è¤ë¹âÀ¸»º²½¤Ë¸þ¤±¤¿Êª¼ÁÀ¸»º°äÅÁ»Ò¥¯¥é¥¹¥¿¡¼¤Î¿Ê²½ rmCombi-OGABTM for evolving a biosynthetic gene cluster toward improved productivity ¡ûµÜËÜ ¾°¼ù¡¢ÎÓ ¸¬ÂÀϺ¡¢Èø·Á ľµ×¡¢»³ÅÄ ¾°Ç·¡¢ÄÓ¿¢ ¸¬¼¤ ¡ûNaoki MIYAMOTO, Kentaro HAYASHI, Naohisa OGATA, Naoyuki YAMADA, Kenji TSUGE ³ô¼°²ñ¼Ò¥·¥ó¥×¥í¥¸¥§¥ó Synplogen Co., Ltd. 5E011 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ÊüÀþ¶ÝStreptomyces albulus¤Ë¤ª¤±¤ë¥ê¥¸¥óÀ¸¹çÀ®·ÐÏ©¤ÎÁ˳²¤Ë¤è¤ë¥Ý¥ê¥ê¥¸¥óÀ¸»º¤Ø¤Î±Æ¶Áɾ²Á Evaluation of the effect of inhibiting the lysine biosynthesis in Streptomyces albulus on ¦Å-poly-L-lysine production ¡ûÅèÅÄ Âçͤ¡¢Ä¹Ã«Éô ʸ¿Í¡¢´Ý»³ ÀéÅÐÀª¡¢ßÀÌî µÈ½½ ¡ûDaisuke SHIMADA, Fumihito HASEBE, Chitose MARUYAMA, Yoshimitsu HAMANO Ê¡°æ¸©Â籡¡¦À¸Êª»ñ¸» Fukui Pref. Univ. 5E012 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì Lactiplantibacillus plantarum PUK6¤Î¿À®Ê¬¥Ð¥¯¥Æ¥ê¥ª¥·¥óÍ¢Á÷¥¿¥ó¥Ñ¥¯¼Á¤Ë´Ø¤¹¤ë¸¦µæ Study on the transporter of the multiple bacteriocins of Lactiplantibacillus plantarum PUK6. ¡ûµÈ¸¶ ¿¿´õ1¡¢»³¸ý °½Èþ2¡¢Á±Æ£ °Ò»Ë3¡¢¾¾ºê ¹°Èþ1,2 ¡ûMaki YOSHIHARA1, Ayami YAMAGUCHI2, Takeshi ZENDO3, Hiromi MATSUSAKI1,2 1·§Ëܸ©Â籡¡¦´Ä¶¶¦À¸¡¢2·§Ëܸ©Â硦´Ä¶¶¦À¸¡¢3¶åÂ籡¡¦ÇÀ 1Grad. Sch. Environ. Sym. Sci., Pref. Univ. Kumamoto, 2Fac. Environ. Sym. Sci., Pref. Univ. Kumamoto, 3Grad. Sch. Agric., Kyusyu Univ. 5E013 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ÁÈ´¹¤¨ÂçIJ¶Ý¤Ë¤ª¤±¤ë¥ê¥Ü¥½¡¼¥à·ë¹çÎΰèºÇŬ²½¤Ë¤è¤ë¥é¥º¥Ù¥ê¡¼¥±¥È¥ó¤Î¹âÀ¸»º High production of Raspberry ketone through ribosome binding site optimization in recombinant E.coli. ¡ûÇö°æ ¤¯¤ë¤ß1,2¡¢ËñÈø ½Ó²ð1,2¡¢¹âë ľ¼ù1,2 ¡ûKurumi USUI1,2, Shunsuke MASUO1,2, Naoki TAKAYA1,2 1ÃÞÇÈÂç³Ø¡¢2ÈùÀ¸Êª¥µ¥¹¥Æ¥¤¥Ê¥Ó¥ê¥Æ¥£¸¦µæ¥»¥ó¥¿¡¼ 1Univ. of Tsukuba, 2MiCS 5E014 2025/03/08 14:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ³¦ÌÌ¥Õ¥¡¡¼¥á¥ó¥¿¡¼¤òÍѤ¤¤¿¹ÚÊìͳÍè¤ÎÀ¸Êª³èÀÆó¼¡Âå¼Õ¤ÎÀ¸»º Production of bioactive secondary metabolites by an yeast in an interface fermentor ¡û¼ËÜ Ìïºé1¡¢¿ùËÜ ¶Á1¡¢¿·¾å Àµ¿®2¡¢¾®ÅÄ Ç¦1 ¡ûMisaki MURAMOTO1, Hibiki SUGIMOTO1, Masanobu SHINJYOU2, Shinobu ODA1 1¶âÂô¹©Â祲¥Î¥à¸¦¡¢2¥¢¥ë¥½¥¢·Å±û¡Ê³ô¡Ë 1Kanazawa Inst Technol., 2AOB KEIOH 5E015 2025/03/08 13:15 ¥Ý¥¹¥¿¡¼¡¦Å¸¼¨²ñ¾ì ´õ¾¯ÊüÀþ¶Ý Nocardiopsis alba ¤Ë¤ª¤±¤ëºÙ˦ÆâŬ¹çÍϼÁ¤ÈÆó¼¡Âå¼Õ»ºÊªÀ¸¹çÀ®¤Î²òÀÏ Analysis of intracellular compatible solutes and secondary metabolite biosynthesis in the rare actinomycetes, Nocardiopsis alba ¡û¿ÈæÎÉ Î¶ÂÁ1¡¢¾®µÜ»³ Í´1¡¢Ä¹ÅÄ Î´¹°2¡¢²¬Â¼ ±Ñ¼£3¡¢ÌÚë ÌÐ3¡¢³¤Ìî ÎÉÊå1¡¢ÀÐÀî ¿¹É×1¡¢ÎëÌÚ ÉÒ¹°1 ¡ûRyota TAIRA1, Yu KOMIYAMA1, Takahiro OSADA2, Eiji OKAMURA3, Shigeru KITANI3, Ryosuke UNNO1, Morio ISHIKAWA1, Toshihiro SUZUKI1 1ÅìÇÀÂ籡¡¦¾ú¤¡¢2ĹÅľ¦Å¹¡¢3ÀÄ»³³Ø±¡Â硦Íý¹© 1Grad. Sch. Dept. Ferment. Sci., Tokyo Univ. Agric., 2Osada Shouten, 3Dept. Chem. Biol. Sci., Aoyama. Gakuin Univ. / 9 1 - 15 / 123 <<< 1 2 3 4 5 6 7 8 9 >>> / 9 1 - 15 / 123 <<< 1 2 3 4 5 6 7 8 9 >>>
