In recent decades, transient and highly reactive ortho-quinodimethanes (o-QDMs), ortho-quinone methides (o-QMs) and aza-ortho-quinone methides (aza-o-QMs) have attracted much attention and have been extensively studied and applied in organic synthesis, especially natural product total synthesis. This review summarizes recent advances in Diels-Alder reactions involving in situ-generated o-QDMs, o-QMs and aza-o-QMs, highlighting the power and potential of this strategy in organic synthesis and natural product total synthesis. An overview of the methods for generating these intermediates is also available.
The total synthesis of gracilamine, a pentacyclic Amaryllidaceae alkaloid, was achieved from simple building blocks. The synthesis features a mild photo-Nazarov reaction, intramolecular 1,4-addition, and an intramolecular Mannich reaction. This approach not only confirms the C6 stereochemistry of natural gracilamine, and also provides a novel solution to prepare its derivatives and structurally related natural products.
Stereoselective construction of polycyclic rings with all-carbon quaternary centers, and vicinal all-carbon quaternary stereocenters, remains a significant challenge in organic synthesis. These structures can be found in a wide range of polycyclic natural products and drug molecules. Here we report a Ti(Oi-Pr)4-promoted photoenolization/Diels–Alder (PEDA) reaction to construct hydroanthracenol and related polycyclic rings bearing all-carbon quaternary centers. This photolysis proceeds under mild conditions and generates a variety of photo-cycloaddition products in good reaction efficiency and stereoselectivity (48 examples), and has been successfully used in the construction of core skeleton of oncocalyxones, tetracycline and pleurotin. It also provides a reliable method for the late-stage modification of natural products bearing enone groups, such as steroids. The total synthesis of oncocalyxone B was successfully achieved using this PEDA approach.
An asymmetric synthesis of (+)-stephadiamine
has been
accomplished
featuring (a) an enantioselective dearomatizative Michael addition
to generate a quaternary stereocenter; (b) a domino sequence involving
reductive generation of nitrone from γ-nitro ketone followed
by a highly regio- and diastereo-selective intramolecular [3 + 2]
cycloaddition to construct the aza[4,3,3]propellane core with concurrent
generation of two quaternary stereocenters and two functional groups
ready for subsequent transformations; (c) the Curtius rearrangement
of the sensitive α,α-disubstituted malonic acid mono ester
for the installation of α,α-disubstituted amino ester
moiety; (d) a benzylic C–H oxidation under photoredox catalytic
conditions; and (e) a highly diastereoselective ketone reduction affording
δ-hydroxyester preorganized for lactonization.
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