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KAKEN_23580152seika.pdf
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:Dec 11, 2014 |
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酵素法-化学合成を組み合わせた生産系の効率向上をめざす基質分子の設計と合成
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コウソホウ-カガク ゴウセイ オ クミアワセタ セイサンケイ ノ コウリツ コウジョウ オ メザス キシツ ブンシ ノ セッケイ ト ゴウセイ
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Kosoho-kagaku gosei o kumiawaseta seisankei no koritsu kojo o mezasu kishitsu bunshi no sekkei to gosei
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Design and synthesis of highly efficient substrate compatible to chemo-enzymatic synthesis
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須貝, 威
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スガイ, タケシ
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Sugai, Takeshi
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慶應義塾大学・薬学部・教授
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Research team head
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科研費研究者番号 : 60171120
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2014
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科学研究費補助金研究成果報告書
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2013
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酵素触媒と有機合成をあわせて活用する物質生産プロセスの効率向上を目指し、反応速度論上のパラメーターが好適で、かつ反応媒体にもよい親和性を示す基質を分子設計、合成した。具体的には、まず、微生物全菌体還元の基質として機能するα-ハロケトンの構造最適化を行った。そのものを基質とし、新規に探索した酵素を用いた還元を鍵段階として、テルブタリンの合成を達成した。一方、位置選択性および官能基多様性を最大限に発揮できる、アラビノースやグリカール誘導体を基質設計し、大量合成法を確立した。後者では酵素反応生成物に対する立体選択的Ferrieer反応を可能とし、L-フコースやL-グルコースの合成前駆体へと導いた。
Under these circumstances that biocatalytic transformation is widely used, two approaches, the elaboration of "substrate molecular technology" and "quest of biocatalysts" should be emphasized. The aim of this approach is to find the optimized structure and synthetic routes of substrates, which would be maximally advantageous for both selectivity of enzyme-catalyzed reaction, and the total efficiency to target molecules. As the results through the research, three topics were achieved: 1) the exploration of the structure of alpha-haloketones which would be highly and efficiently reduced by stereoselective whole-cell microorganisms; 2) development of the structure of sugar oxazolines and glycal derivatives which serves free functional groups requisite for regio- and stereoselective transformation such as Ferrier reaction, were established. Based on them, new routes for (R)-terbutaline hydrochloride and rare sugars became available.
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研究種目 : 基盤研究(C)
研究期間 : 2011~2013
課題番号 : 23580152
研究分野 : 農学
科研費の分科・細目 : 農芸化学・生物生産化学・生物有機化学
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