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Total Synthesis of (—)-Acetylaranotin Hideto Fujiwara, Taichi Kurogi, Shun Okaya, Kentaro Okano, and Hidetoshi Tokuyama* Angew. Chem. Int. Ed. 2012, 51,

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Presentation on theme: "Total Synthesis of (—)-Acetylaranotin Hideto Fujiwara, Taichi Kurogi, Shun Okaya, Kentaro Okano, and Hidetoshi Tokuyama* Angew. Chem. Int. Ed. 2012, 51,"— Presentation transcript:

1 Total Synthesis of (—)-Acetylaranotin Hideto Fujiwara, Taichi Kurogi, Shun Okaya, Kentaro Okano, and Hidetoshi Tokuyama* Angew. Chem. Int. Ed. 2012, 51, 1 – 5 Speaker: 王湘閔

2 Introduction 1.Epidithiodiketopiperazine (ETP) core 2.Dihydrooxepine

3  Isolation:  Isolation: (-)-Acetylaranotin (1) was first isolated over 40 years ago and that the first synthesis of the biosynthetically related compound gliotoxin was reported in 1976.   Biological activities: Inhibitory activity against viral RNA polymerase, potent antituberculous activity, antiproliferative activity against DU145 human prostate cancer cell line. Isolation and Biological activities

4 Past Work 1. General methods for dihydrooxepine formation 2. First total synthesis of ( — )-Acetylaranotin The first tactical consideration: identification of conditions for oxidation of the diketopiperazine C-H bonds in the presence of the dihydrooxepine moiety. The preparation of 9 raises the second key tactical consideration: construction of the dihydrooxepine moiety.

5 Retrosynthetic Analysis

6 Synthesis of substrate 20 for Baeyer-Villiger oxidation Synthesis of substrate 20 for Baeyer-Villiger oxidation vinylogous Rubottom oxidation

7 Synthesis of dihydrooxepine 23

8 Dimerization of monomer

9 Preparation of monomers possessing the stereochemistry of natural product Low yield

10 Total Synthesis of (—)-Acetylaranotin (1)

11  Total synthesis of ( — )-acetylaranotin (1) was accomplished in 22 steps (0.06% overall yield) from commercially available L-Cbz-tyrosine.  The approach features the efficient formation of the proline-fused dihydrooxepine ring through unusual vinylogous Rubottom oxidation, and successful dimerization of the monomer unit, which possesses an unnatural stereochemistry. Conclusion  Total synthesis of ( — )-acetylaranotin (1) was accomplished in 22 steps (0.06% overall yield) from commercially available L-Cbz-tyrosine.  The approach features the efficient formation of the proline-fused dihydrooxepine ring through unusual vinylogous Rubottom oxidation, and successful dimerization of the monomer unit, which possesses an unnatural stereochemistry.

12 Summary

13

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