ÆüËÜÇÀ·Ý²½³Ø²ñ 2022ǯÅÙÂç²ñ¥×¥í¥°¥é¥à¸¡º÷

Ÿ¼¨²ñ¡¦µÙ·Æ¼¼ (¥í¥°¥¤¥ó¤¬É¬ÍפǤ¹)
½ªÎ»¤·¤Þ¤·¤¿
¥×¥í¥°¥é¥à½¸PDF ´ë¶ÈÀâÌÀ²ñ
½ªÎ»¤·¤Þ¤·¤¿
¿Ê¹ÔÃæ¤Î¥×¥í¥°¥é¥à°ìÍ÷
½ªÎ»¤·¤Þ¤·¤¿
Âç²ñ¥È¥Ã¥×¥Ú¡¼¥¸¤ËÌá¤ë
Âç²ñ¥×¥í¥°¥é¥à½¸¡¦Âç²ñ¹Ö±éÍ׻ݽ¸¡ÎPDF¡Ï¤ÎÊѹ¹ (¹¹¿·¡§3/23)
¿ä¾©¥Ö¥é¥¦¥¶¡§Chrome¡¢FireFox¡¢Edge
(Internet Explorer¤ÈSafari¤Ç¤ÏÀµ¤·¤¯É½¼¨¤µ¤ì¤Ê¤¤¾ì¹ç¤¬¤¢¤ê¤Þ¤¹)
2D04-08
°ìÈֱ̹é
¥ß¡¼¥Æ¥£¥ó¥°¥ë¡¼¥à D
¥æ¡¼¥°¥ì¥Ê¥ï¥Ã¥¯¥¹¥¨¥¹¥Æ¥ë¹çÀ®·Ï¤Ë¤ª¤±¤ë¥ß¥È¥³¥ó¥É¥ê¥¢Êä¹ÚÁÇÊÑ´¹¤Î½ÅÍ×À­
NADPH-to-NADH conversion by mitochondrial transhydrogenase is indispensable for sustaining anaerobic metabolism in Euglena gracilis
¡ûÃæß· ¾»Èþ1üⶶ Ì´·î1Ç𻳠ʹ°ìϺ2´¥ Çî1¾åÅÄ ¸÷¹¨1ºåËÜ Î¶»Ê1
¡ûMasami Nakazawa1 Mutsuki Takahashi1 Yuichiro Kashiyama2 Hiroshi Inui1 Mitsuhiro Ueda1 Tatsuji Sakamoto1
1ºåÉÜÂçÀ¸Ì¿¡¢2Ê¡°æ¹©Â繩
1Osaka Pref. Univ., 2Fukui Univ. Tech.
Euglena / biofuel / transhydrogenase

Í×»ÝËÜʸ¤Ï¥È¥Ã¥×¥Ú¡¼¥¸¤«¤é¥í¥°¥¤¥ó¤ò¤·¤Æĺ¤¯¤Èɽ¼¨¤µ¤ì¤Þ¤¹¡£