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Synthesis 2019; 51(23): 4311-4337
DOI: 10.1055/s-0037-1611914
DOI: 10.1055/s-0037-1611914
review
Synthesis of 13C-Labeled Steroids
Further Information
Publication History
Received: 14 June 2019
Accepted after revision: 24 July 2019
Publication Date:
13 September 2019 (online)
This review is dedicated to the memory of Dr Anaïs Fournial
Abstract
Due to the wide spectrum of biological activities of steroids, the detection and quantification of steroidal residues in various biological materials are crucial for drug development, doping prevention, and environmental protection. In addition, the analytical technique of stable isotopic dilution (SID) by Liquid Chromatography-Mass Spectrometry (LC-MS) requires 13C-labeled steroids as standards to provide accurate and reproducible steroid quantification. In this context, the synthesis of 13C-labeled steroids is reviewed. The approaches based on partial synthesis starting from commercially available steroids have been, by far, the most commonly employed strategy.
1 Introduction
2 Hemisynthesis of 13C3-Labeled Steroids via Partial Degradation of the A Ring
2.1 Degradation of the A Ring to an Enol Lactone
2.1.1 Introduction of 13C Atom(s) via Claisen Condensation: Turner’s Strategy
2.1.2 Introduction of 13C Atom(s) with 13C-Labeled 5-(Diethylphosphono)pentan-2-one Ethylene Ketal Based on the Fujimoto–Belleau Reaction
2.2 Degradation of the A Ring and Introduction of 13C Atom(s) with [13C3]-1-(Triphenylphosphoranylidene)propan-2-one
3 Construction of the A Ring from an α,β-Unsaturated Ketone with 13C-Labeled 1-Iodo-3,3-(ethylenedioxy)butane as Electrophile
4 Construction of the A and B rings: Stork’s Strategy
5 Hemisynthesis with Introduction of 13C Atom(s) in the C17 Side Chain
6 Conclusion
-
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For recent references on this technique, see also:
For excellent reviews in this field, see:
For previous short reviews on this topic, see:
For recent references concerning this sequence, see:
For recent investigations concerning this 1,2-dehydrogenation step, see:
For examples of abnormal ozonolysis in steroid series, see:
For reviews on this topic, see:
For examples of thiol addition at C1, see
For primarily investigations on this approach, see:
For recent improvements, see: