40 ベンゾイソクロマンキノン系抗生物質生合成における立体特異的還元酵素の機能研究(口頭発表の部)
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- 田口 貴章
- 東大院薬
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- 小澤 誠
- 東大院薬
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- Kimberley Meriel R.
- ブリストル大化
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- Booker-Milburn Kevin I.
- ブリストル大化
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- Stephenson G. Richard
- イーストアングリア大化
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- 海老塚 豊
- 東大院薬
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- 市瀬 浩志
- 東大院薬
書誌事項
- タイトル別名
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- 40 Functional Studies on Stereospecific Reductases Involved in the Biosynthesis of Benzoisochromanequinone Antibiotics
抄録
A class of Streptomyces aromatic polyketide antibiotics, the benzoisochromanequinone (BIQs) antibiotics all show trans stereochemistry at C-3 and C-15 in the pyran ring. The opposite stereochemical control is found in actinorhodin (3S, 15R, ACT) from S. coelicolor A3(2) and dihydrogranaticin (3R, 15S, DHGRA) from S. violaceoruber Tu22. A common bicyclic intermediate, which is produced by the early biosynthetic genes encoding a type II minimal polyketide synthase, C-9 ketoreductase (KR), aromatase, and cyclase, was postulated to undergo stereospecific reduction to provide either (S)-DNPA or (R)-DNPA. In the ACT biosynthesis, RED1 encoded by act VI-ORF 1 was proved to reduce C-3 of bicyclic intermediate to determine the 3-(S)-configuration of DNPA. Although the homolog of act VI-ORF 1 was not found in the gra cluster, RED2 was suggested to reduce bicyclic intermediate. An explored RED-2 coding gene, gra-6, was subjected to updated BLAST analysis. The gra-6 product, a putative short-chain alcohol dehydrogenase, has virtually no sequence similarity with RED1. Functional analysis of RED1/2 was made from the following points. 1) Introduction of gra-ORF 6 and gra-ORF 5 under translational coupling (gra-5+6) into the act VI-ORF 1 mutant, S. coelicolor B22, led to ACT-like pigmentation, demonstrating gra-ORF 6 to complement the function of act VI-ORF 1 possibly under unnatural stereochemical control. 2) Combinations of the ketoreductase genes were co-expressed with the early biosynthetic genes required for the bicyclic intermediate formation. gra-ORF6 was essential to produce (R)-DNPA in DHGRA biosynthesis. gra-5+6 led to the most efficient production of (R)-DNPA, implying a possible unique cooperative function as RED2. 3) A series of synthetic analogues was applied to the biotransformations based on ketosynthase-deficient recombinants of S. coelicolor carrying either RED1 or RED2. In all cases for RED1, the β-keto ester substrates were reduced with good to excellent enantioselectivity. However, the simpler substrates were not accepted by RED2, indicating the significant difference in substrate specificity between the two reductases. 4) 3D structures of RED1 and RED2 were predicted based on homology modeling (FAMS) using the templates, L-3-hydroxyacyl-CoA dehydrogenase from human heart (for RED1) and tropinone reductase II (for RED2). Catalytically key amino acid residues were revealed for the both enzymes. 5) RED1 and RED2 were overexpressed in E. coli, and in vitro assay system were successfully established. Optimization of the system, purification of both enzymes and site directed mutagenesis to the suggested key residues are in progress.
収録刊行物
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- 天然有機化合物討論会講演要旨集
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天然有機化合物討論会講演要旨集 44 (0), 235-240, 2002
天然有機化合物討論会実行委員会
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詳細情報 詳細情報について
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- CRID
- 1390001206079065472
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- NII論文ID
- 110006682193
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- ISSN
- 24331856
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- 本文言語コード
- ja
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- データソース種別
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- JaLC
- CiNii Articles
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- 抄録ライセンスフラグ
- 使用不可