¡¡¥»¥­¥¤¡¡¥­¥è¥Î
´Ø¡¡°æ¡¡À¶¡¡Çµ¡¡¡¡½õ¶µ¡ÊÍ­´ü¡Ë¡Ê¼«Á³²Ê³Ø¡Ë

  • ³ØÎò¡Ê´¶È¡¦³Ø°Ì¼èÆÀ¡Ë¡§
    ¡¡¡¡³ØÉô
    • ·ÄØæµÁ½ÎÂç³ØÍý¹©³ØÉô¡¡2005ǯ´¶È
    ¡¡¡¡Âç³Ø±¡
    • ·ÄØæµÁ½ÎÂç³ØÂç³Ø±¡Íý¹©³Ø¸¦µæ²Ê¡¡2007ǯÍý³Ø½¤»Î
    • University of Basel (Switzerland), Faculty of Science, Zoology¡¡2012ǯBaselÂç³Ø Ph.D
  • ¸¦µæ¼¼¡§Âè2¹»¼Ë3³¬2311¹æ¼¼¡ÊÆâÀþ33573¡Ë
  • E-mail¡§kiyono.sekii¡÷keio.jp
    ¡Ê¡÷¤ÏÁ´³Ñ¤Çɽ¼¨¤·¤Æ¤¢¤ê¤Þ¤¹¡£È¾³Ñ¤Î@¤ËÃÖ¤­´¹¤¨¤Æ¤´ÍøÍѤ¯¤À¤µ¤¤¡Ë
  • ôÅö²ÊÌÜ¡§À¸Êª³Ø­µ¡Ê¼Â½¬Ã´Åö¡Ë¡¢À¸Êª³Ø­¶¡Ê¼Â½¬Ã´Åö¡Ë
  • ÀìÌçÎΰ衧٨·Áưʪ¤ÎÀ¸¿£À¸Êª³Ø¡¢Ê¬»ÒÀ¸Êª³Ø¡¢¿Ê²½À¸ÂÖÀ¸Êª³Ø
  • ¸¦µæ¾Ò²ð¡§Æ°Êª¤ÎÀ¸¿£Àïά¤Ë¶½Ì£¤¬¤¢¤ê¡¢¼ç¤ËÙ¨·Áưʪ¥×¥é¥Ê¥ê¥¢¤òÍѤ¤¤Æ¸¦µæ¤ò¹Ô¤Ã¤Æ¤¤¤Þ¤¹¡£Ù¨·Áưʪ¤Î¤Ê¤«¤Ë¤Ï¼«¸ÊʬÎö¤Ê¤É¤ÇÁý¿£¤¹¤ë̵À­À¸¿£¤È¡¢Íñ¤äÀº»Ò¤ò¤Ä¤¯¤ê¾¸ÄÂΤȸòÈø¤ò¤·¤Æ»Ò¹¤ò»Ä¤¹Í­À­À¸¿£¡¢£²¤Ä¤ÎÀ¸¿£Íͼ°¤ò»È¤¤¤ï¤±¤é¤ì¤ë¤â¤Î¤¬Â¿¤¯¤¤¤Þ¤¹¡£¤Ê¤¼¤½¤Î¤è¤¦¤Ê¤¤¤¤¤È¤³¼è¤ê¤ÎÀïά¤¬²Äǽ¤Ë¤Ê¤Ã¤Æ¤¤¤ë¤Î¤«¡¢¤½¤Î»ÅÁȤߤòÌÀ¤é¤«¤Ë¤·¤¿¤¤¤È»×¤Ã¤Æ¤¤¤Þ¤¹¡£
¼çÍ×Ãøºî¡¦ÏÀʸ
¡ÌÏÀʸ¡Í
¡¡1¡¥T. Maezawa, M. Ishikawa, K. Sekii, G. Nagamatsu, R. Furukawa, and K. Kobayashi. ¡ÈD-Tryptophan enhances the reproductive organ-specific expression of the amino acid transporter homolog Dr-SLC38A9 involved in the sexual induction of planarian Dugesia ryukyuensis.¡É Zoological Letters, 7, 4. (2021). https://doi.org/10.1186/s40851-021-00173-z
¡¡2¡¥R. Tanimoto, K. Sekii, K. Morohaku, J. Li, D. Pépin, and Y. Obata. ¡ÈBlocking estrogen-induced AMH expression is crucial for normal follicle formation.¡É Development, 148 (6): dev197459. (2021). https://doi.org/10.1242/dev.197459
¡ÌÃø½ñ¡Í
¡¡3¡¥K. Sekii and K. Kobayashi. ¡ÈSex-inducing substances break down dormancy in planarian postembryonic reproductive development.¡É In Advances in Invertebrate (Neuro) Endocrinology eds by S. Saleuddinm, A. Lange, I. Orchard. p25-61. Apple Academic Press. (2020)
¡ÌÏÀʸ¡Í
¡¡4¡¥K. Sekii¢÷, S. Yorimoto¢÷, H. Okamoto, N. Nagao, T. Maezawa, Y. Matsui, K. Yamaguchi, R. Furukawa, S. Shigenobu, and K. Kobayashi. Transcriptomic analysis reveals differences in the regulation of amino acid metabolism in asexual and sexual planarians. Scientific Reports, 9, 6132. (¢÷equally contributed) (2019) https://doi.org/10.1038/s41598-019-42025-z
¡¡5¡¥H. Nakagawa¢÷, K. Sekii¢÷, T. Maezawa, M. Kitamura, S. Miyashita, M. Abukawa, M. Matsumoto, and K. Kobayashi. ¡ÈA comprehensive comparison of sex-inducing activity in asexual worms of the planarian Dugesia ryukyuensis: The crucial sex-inducing substance appears to be present in yolk glands in Tricladida." Zoological Letters, 4, doi:https://doi.org/10.1186/s40851-018-0096-9. (¢÷equally contributed) (2018)
¡ÌÃø½ñ¡Í
¡¡6¡¥T. Maezawa, K. Sekii, M. Ishikawa, H. Okamoto, and K. Kobayashi. ¡ÈReproductive strategies in planarians: Insights gained from the bioassay system for sexual induction in asexual Dugesia ryukyuensis worms.¡É In Reproductive & Developmental Strategies: The Continuity of Life eds by K. Kobayashi, T. Kitano, Y. Iwao, M. Kondo. p175-201. Springer. (2018)
¡¡7¡¥¾®ÎÓ°ìÌ顦´Ø°æÀ¶Çµ ¡Ø¥×¥é¥Ê¥ê¥¢¤¿¤Á¤Î¹ª¤ß¤ÊÀ¸¿£Àïά¡ÊÀ¸Ì¿¤Î¿ÀÈë¤ÈÉԻ׵ĥ·¥ê¡¼¥º¡Ë¡Ù¾Ø²Ú˼¡¡¡Ê2017¡Ë
¡ÌÏÀʸ¡Í
¡¡8¡¥R. Arbore*, K. Sekii, C. Beisel, P. Ladurner, E. Berezikov, and L. Schärer. ¡ÈPositional RNA-Seq identifies candidate genes for phenotypic engineering of sexual traits.¡É Frontiers in Zoology, 12:14. (2015)
¡¡9¡¥K. Sekii, D. Vizoso, G. Kuales, K. De Mulder, P. Ladurner, and L. Schärer. ¡ÈPhenotypic engineering of sperm-production rate confirms evolutionary predictions of sperm competition theory.¡É Proceedings of the Royal Society B: Biological Sciences, 280(1757):20122711. (2013)
¡¡10¡¥K. Sekii, W. Salvenmoser, K. De Mulder, L. Schärer, and P. Ladurner. ¡ÈMelav2, an elav-like gene, is essential for spermatid differentiation in the flatworm Macrostomum lignano.¡É BMC Developmental Biology, 9:62. (2009)
½ê°³Ø²ñ¡¦ÃÄÂΡ§
¡¡ÆüËÜưʪ³Ø²ñ¡¢ÆüËÜȯÀ¸À¸Êª³Ø²ñ
³¤³°Îò¡§
¡¡2012-2013ǯ, ¥ª¥Ã¥¯¥¹¥Õ¥©¡¼¥ÉÂç³Ø¡¢¥¹¥¤¥¹¹ñΩ²Ê³ØºâÃÄ¡ÊSNSF¡Ë¥ê¥µ¡¼¥Á¥Õ¥§¥í¡¼¡Ê±Ñ¹ñ¡Ë¡ÊSwiss National Science Foundation Research Fellow, University of Oxford, U.K.¡Ë