Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

Organisationseinheiten

Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des SammelwerksNatural Product Synthesis II
UntertitelTargets, Methods, Concepts
Herausgeber/-innenJohann Mulzer
Seiten43-76
Seitenumfang34
PublikationsstatusVeröffentlicht - 26 Jan. 2005

Publikationsreihe

NameTopics in Current Chemistry
Band244
ISSN (Print)0340-1022

Abstract

The synthesis of complex natural products still remains as the bottleneck for the biological evaluation of such compounds. In contrast to the biosyntheses, vinylogous aldol reactions can incorporate more than one acetate or propionate building block into the growing polyketide chain. To facilitate such reactions either enolate activation or aldehyde activation is required. For both variations, selective protocols have been put forward and were shown to be efficient substitutes compared to standard aldol reactions. As can be seen in the total syntheses of natural products such as callipeltoside, their use shortens the synthetic route significantly. One of the most challenging transformations in this context is the use of γ-substituted ketene acetals in both aldehyde and enolate activation. In particular, aliphatic aldehydes give poor yields and selectivities. Protocols for the enantioselective variation are given using either the Tol-BINAP system or C2-symmetrical copper(II) complexes.

ASJC Scopus Sachgebiete

Zitieren

Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products. / Kalesse, Markus.
Natural Product Synthesis II: Targets, Methods, Concepts. Hrsg. / Johann Mulzer. 2005. S. 43-76 (Topics in Current Chemistry; Band 244).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandBeitrag in Buch/SammelwerkForschungPeer-Review

Kalesse, M 2005, Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products. in J Mulzer (Hrsg.), Natural Product Synthesis II: Targets, Methods, Concepts. Topics in Current Chemistry, Bd. 244, S. 43-76. https://doi.org/10.1007/b96887
Kalesse, M. (2005). Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products. In J. Mulzer (Hrsg.), Natural Product Synthesis II: Targets, Methods, Concepts (S. 43-76). (Topics in Current Chemistry; Band 244). https://doi.org/10.1007/b96887
Kalesse M. Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products. in Mulzer J, Hrsg., Natural Product Synthesis II: Targets, Methods, Concepts. 2005. S. 43-76. (Topics in Current Chemistry). doi: 10.1007/b96887
Kalesse, Markus. / Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products. Natural Product Synthesis II: Targets, Methods, Concepts. Hrsg. / Johann Mulzer. 2005. S. 43-76 (Topics in Current Chemistry).
Download
@inbook{721d4bce61bc479b86ea7e509983cded,
title = "Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products",
abstract = "The synthesis of complex natural products still remains as the bottleneck for the biological evaluation of such compounds. In contrast to the biosyntheses, vinylogous aldol reactions can incorporate more than one acetate or propionate building block into the growing polyketide chain. To facilitate such reactions either enolate activation or aldehyde activation is required. For both variations, selective protocols have been put forward and were shown to be efficient substitutes compared to standard aldol reactions. As can be seen in the total syntheses of natural products such as callipeltoside, their use shortens the synthetic route significantly. One of the most challenging transformations in this context is the use of γ-substituted ketene acetals in both aldehyde and enolate activation. In particular, aliphatic aldehydes give poor yields and selectivities. Protocols for the enantioselective variation are given using either the Tol-BINAP system or C2-symmetrical copper(II) complexes.",
keywords = "Aldol reaction, Callipeltoside, Lewis acid, Vinylogous",
author = "Markus Kalesse",
year = "2005",
month = jan,
day = "26",
doi = "10.1007/b96887",
language = "English",
isbn = "3540211241",
series = "Topics in Current Chemistry",
pages = "43--76",
editor = "Johann Mulzer",
booktitle = "Natural Product Synthesis II",

}

Download

TY - CHAP

T1 - Recent advances in vinylogous aldol reactions and their applications in the syntheses of natural products

AU - Kalesse, Markus

PY - 2005/1/26

Y1 - 2005/1/26

N2 - The synthesis of complex natural products still remains as the bottleneck for the biological evaluation of such compounds. In contrast to the biosyntheses, vinylogous aldol reactions can incorporate more than one acetate or propionate building block into the growing polyketide chain. To facilitate such reactions either enolate activation or aldehyde activation is required. For both variations, selective protocols have been put forward and were shown to be efficient substitutes compared to standard aldol reactions. As can be seen in the total syntheses of natural products such as callipeltoside, their use shortens the synthetic route significantly. One of the most challenging transformations in this context is the use of γ-substituted ketene acetals in both aldehyde and enolate activation. In particular, aliphatic aldehydes give poor yields and selectivities. Protocols for the enantioselective variation are given using either the Tol-BINAP system or C2-symmetrical copper(II) complexes.

AB - The synthesis of complex natural products still remains as the bottleneck for the biological evaluation of such compounds. In contrast to the biosyntheses, vinylogous aldol reactions can incorporate more than one acetate or propionate building block into the growing polyketide chain. To facilitate such reactions either enolate activation or aldehyde activation is required. For both variations, selective protocols have been put forward and were shown to be efficient substitutes compared to standard aldol reactions. As can be seen in the total syntheses of natural products such as callipeltoside, their use shortens the synthetic route significantly. One of the most challenging transformations in this context is the use of γ-substituted ketene acetals in both aldehyde and enolate activation. In particular, aliphatic aldehydes give poor yields and selectivities. Protocols for the enantioselective variation are given using either the Tol-BINAP system or C2-symmetrical copper(II) complexes.

KW - Aldol reaction

KW - Callipeltoside

KW - Lewis acid

KW - Vinylogous

UR - http://www.scopus.com/inward/record.url?scp=30744451484&partnerID=8YFLogxK

U2 - 10.1007/b96887

DO - 10.1007/b96887

M3 - Contribution to book/anthology

AN - SCOPUS:30744451484

SN - 3540211241

SN - 9783540211242

T3 - Topics in Current Chemistry

SP - 43

EP - 76

BT - Natural Product Synthesis II

A2 - Mulzer, Johann

ER -

Von denselben Autoren