Structure and conformational analysis of spiroketals from 6-O-methyl-9(E)-hydroxyiminoerythronolide A

Structure and conformational analysis of spiroketals from 6-O-methyl-9(E)-hydroxyiminoerythronolide A

Three novel spiroketals were prepared by a one-pot transformation of 6-O-methyl-9(E)-hydroxyiminoerythronolide A. We present the formation of a [4.5]spiroketal moiety within the macrolide lactone ring, but also the unexpected formation of a 10-C=11-C double bond and spontaneous change of stereochemi...

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Bibliographic Details
Main Authors: Ana Čikoš, Irena Ćaleta, Dinko Žiher, Mark B. Vine, Ivaylo J. Elenkov, Marko Dukši, Dubravka Gembarovski, Marina Ilijaš, Snježana Dragojević, Ivica Malnar, Sulejman Alihodžić
Format: Article
Language:English
Published: Beilstein-Institut 2015-08-01
Series:Beilstein Journal of Organic Chemistry
Subjects:
configuration
conformation
6-O-methyl-9(E)-hydroxyiminoerythronolide A
reaction mechanism
spiroketal
Online Access:https://doi.org/10.3762/bjoc.11.157
Description
Summary:Three novel spiroketals were prepared by a one-pot transformation of 6-O-methyl-9(E)-hydroxyiminoerythronolide A. We present the formation of a [4.5]spiroketal moiety within the macrolide lactone ring, but also the unexpected formation of a 10-C=11-C double bond and spontaneous change of stereochemistry at position 8-C. As a result, a thermodynamically stable structure was obtained. The structures of two new diastereomeric, unsaturated spiroketals, their configurations and conformations, were determined by means of NMR spectroscopy and molecular modelling. The reaction kinetics and mechanistic aspects of this transformation are discussed. These rearrangements provide a facile synthesis of novel macrolide scaffolds.
ISSN:1860-5397

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