Part A. Asymmetric Total Synthesis of (–)-Penibruguieramine A Using Memory of Chirality and Dynamic Kinetic Resolution. Part B. Biphasic CuAAC Reaction Using a Phase Transfer Agent.
Part A. 분자 비대칭성 기억 현상과 동적 속도론적 분할 현상을 이용한 (–)-penibruguieramien A의 비대칭 전합성. Part B. 상 전이 촉진제를 이용한 2상 CuAAC 반응.
|dc.description||학위논문 (박사)-- 서울대학교 대학원 : 약학과, 2017. 2. 김상희.||-|
|dc.description.abstract||Part A. Asymmetric Total Synthesis of (–)-Penibruguieramine A Using Memory of Chirality and Dynamic Kinetic Resolution.
(–)-Penibruguieramine A is a novel marine pyrrolizidine alkaloid, which was recently identified by Guo from the endophytic fungus Penicillium sp. GD6 associated with Chinese mangroves. This natural product has an unprecedented 1-hydroxyl-2-methyl pyrrolizidin-3-one skeleton.
We have achieved the first total synthesis of this marine alkaloid using the principles of memory of chirality (MOC) and dynamic kinetic resolution (DKR) for the asymmetric synthesis from proline as the only chiral source. MOC and DKR are attractive strategies for asymmetric synthesis. However, although there have been reports of DKR being utilized, there are only few reports of MOC being applied in total synthesis of natural products. Moreover, the combination of these two concepts has not been previously reported for asymmetric synthesis.
Our synthesis follows the proposed biosynthetic pathway and features an asymmetric construction of stereocenters with essentially complete diastereo- and enantioselectivity in the absence of external chiral sources. Noteworthy is the excellent level of memory of chirality in a protic solvent environment. To understand this, we performed some experiments and provided a mechanistic rationale.
Part B. Biphasic CuAAC Reaction Using a Phase Transfer Agent.
A phase transfer agent assisted biphasic Cu(I) catalyzed azide-alkyne 1,3-dipolar cycloaddition (CuAAC) reaction system was developed. A biphasic reaction media consisting of water and an organic solvent ensures a dissolution of reagents and substrates. Tris(triazolylmethyl)amine ligands with an appropriate hydrophilic-lipophilic balance are able to extract copper from the aqueous phase to the organic phase, accelerating the CuAAC reaction rate. The present system is widely applicable to substrates with various functionalities, including a free amino group and especially to lipophilic substrates.
|dc.description.tableofcontents||Part A. Asymmetric Total Synthesis of ()-Penibruguieramine A Using Memory of Chirality and Dynamic Kinetic Resolution 1
I. Introduction 2
II. Results and Discussion 4
III. Conclusions 14
IV. Experimental 15
V. References 50
VI. Acknowledgements 54
Part B. Biphasic CuAAC Reaction Using a Phase Transfer Agent 55
I. Introduction 56
II. Results and Discussion 60
III. Conclusions 69
IV. Experimental 70
V. References 83
VI. Acknowledgements 88
Appendix I 89
Appendix II 104
Abstract in Korean 127
|dc.subject||Part A. Aldol reaction||-|
|dc.subject||Dynamic kinetic resolution||-|
|dc.subject||Memory of chirality||-|
|dc.subject||Total synthesis. Part B. Click chemistry||-|
|dc.subject||Phase transfer agent||-|
|dc.title||Part A. Asymmetric Total Synthesis of (–)-Penibruguieramine A Using Memory of Chirality and Dynamic Kinetic Resolution. Part B. Biphasic CuAAC Reaction Using a Phase Transfer Agent.||-|
|dc.title.alternative||Part A. 분자 비대칭성 기억 현상과 동적 속도론적 분할 현상을 이용한 (–)-penibruguieramien A의 비대칭 전합성. Part B. 상 전이 촉진제를 이용한 2상 CuAAC 반응.||-|