Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids
Chapter one describes a literature overview of studies on the cyclic iminium ion chemistry and its use in the synthesis of 2,6-disubstituted piperidine derivatives. Chapter two describes the facile synthesis of cyclic N,O-acetals and Lewis acid-mediated alkylation of thesis acetals with allyltrimeth...
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sg-ntu-dr.10356-428492023-02-28T23:33:45Z Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids Lu, Yongna Roderick Wayland Bates School of Physical and Mathematical Sciences DRNTU::Science::Chemistry::Organic chemistry::Organic synthesis Chapter one describes a literature overview of studies on the cyclic iminium ion chemistry and its use in the synthesis of 2,6-disubstituted piperidine derivatives. Chapter two describes the facile synthesis of cyclic N,O-acetals and Lewis acid-mediated alkylation of thesis acetals with allyltrimethylsilane via acyclic iminium ion chemistry, giving homoallylic amine derivatives efficeintly. In Chapter three, we describe the successful syntheses of porantheridine 3-1 and its C8-epimer 3-59, employing silver-catalyzed allene cyclization to generate a cis-isoxazolidine intermediate and Lewis acid-mediated alkylation of N,O-acetals to generate substituted piperidine rings. The generation of trans and cis-2,6-disubstituted piperidine can be rationalized by consideration of the different conformations of monocyclic N-acyl iminium ion 3-55 and bicyclic N-acyl iminium ion 3-64. In Chapter four, the first asymmetric synthesis of the sedum alkaloid sedinine 4-2 has been successfully achieved, employing silver-catalyzed allene cyclization and ring closing metathesis to form a bicyclic N,O-acetal 4-33. Alkylation of this acetal with silyl enol ether 4-47 under Lewis acidic conditions was exclusively trans selective, leading to the natural product after reduction. On the other hand, conversion of the bicyclic N,O-acetal 4-33 to a semicyclic N,O-acetal 4-17 resulted in no stereoselectivity during such a reaction. Compared to the porantheridine synthesis, the constrasting results also can be rationalized by consideration of the conformation of the iminium ions. DOCTOR OF PHILOSOPHY (SPMS) 2011-01-21T08:01:25Z 2011-01-21T08:01:25Z 2011 2011 Thesis Lu, Y. N. (2011). Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/42849 10.32657/10356/42849 en 238 p. application/pdf |
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DRNTU::Science::Chemistry::Organic chemistry::Organic synthesis Lu, Yongna Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| description |
Chapter one describes a literature overview of studies on the cyclic iminium ion
chemistry and its use in the synthesis of 2,6-disubstituted piperidine derivatives.
Chapter two describes the facile synthesis of cyclic N,O-acetals and Lewis
acid-mediated alkylation of thesis acetals with allyltrimethylsilane via acyclic iminium
ion chemistry, giving homoallylic amine derivatives efficeintly.
In Chapter three, we describe the successful syntheses of porantheridine 3-1 and its
C8-epimer 3-59, employing silver-catalyzed allene cyclization to generate a
cis-isoxazolidine intermediate and Lewis acid-mediated alkylation of N,O-acetals to
generate substituted piperidine rings. The generation of trans and cis-2,6-disubstituted
piperidine can be rationalized by consideration of the different conformations of
monocyclic N-acyl iminium ion 3-55 and bicyclic N-acyl iminium ion 3-64.
In Chapter four, the first asymmetric synthesis of the sedum alkaloid sedinine 4-2 has
been successfully achieved, employing silver-catalyzed allene cyclization and ring
closing metathesis to form a bicyclic N,O-acetal 4-33. Alkylation of this acetal with
silyl enol ether 4-47 under Lewis acidic conditions was exclusively trans selective,
leading to the natural product after reduction. On the other hand, conversion of the
bicyclic N,O-acetal 4-33 to a semicyclic N,O-acetal 4-17 resulted in no
stereoselectivity during such a reaction. Compared to the porantheridine synthesis, the
constrasting results also can be rationalized by consideration of the conformation of the iminium ions. |
| author2 |
Roderick Wayland Bates |
| author_facet |
Roderick Wayland Bates Lu, Yongna |
| format |
Theses and Dissertations |
| author |
Lu, Yongna |
| author_sort |
Lu, Yongna |
| title |
Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| title_short |
Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| title_full |
Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| title_fullStr |
Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| title_full_unstemmed |
Lewis acid-mediated alkylations of N,O-acetals and applications to the total syntheses of alkaloids |
| title_sort |
lewis acid-mediated alkylations of n,o-acetals and applications to the total syntheses of alkaloids |
| publishDate |
2011 |
| url |
https://hdl.handle.net/10356/42849 |
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1759853400503091200 |