Stereoselective Arene‐Forming Aldol Condensation: Catalyst‐Controlled Synthesis of Axially Chiral Compounds

Witzig, Reto M.; Lotter, Dominik; Fäseke, Vincent C.; Sparr, Christof

doi:10.1002/chem.201702471

Cited by 46 publications

(13 citation statements)

References 72 publications

(44 reference statements)

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“…Our previous efforts were engaged in polyketide cyclizations of artificial aldehyde substrates with pre‐organizing aromatic moieties . The mild substrate preparation and the observed control over increasingly complex substrates thereby indicated the feasibility of small‐molecule catalyzed, divergent cyclizations of native polyketides, if the reactivity and selectivity requirements are met.…”

Section: Methodsmentioning

confidence: 99%

Catalyst‐Controlled Transannular Polyketide Cyclization Cascades: Selective Folding of Macrocyclic Polyketides

et al. 2020

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The biomimetic synthesis of aromatic polyketides from macrocyclic substrates by means of catalyst-controlled transannular cyclization cascades is described. The macrocyclic substrates, which feature increased stability and fewer conformational states, were thereby transformed into several distinct polyketide scaffolds. The catalyst-controlled transannular cyclizations selectively led to aromatic polyketides with a defined folding and oxygenation pattern, thus emulating bketo-processing steps of polyketide biosynthesis.

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Section: Methodsmentioning

confidence: 99%

Catalyst‐Controlled Transannular Polyketide Cyclization Cascades: Selective Folding of Macrocyclic Polyketides

et al. 2020

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“…These cyclization studies [44][45][46][47][48][49] revealed the ability of smallmolecule catalysts to trigger polyketide-type cyclizations and suggested that also noncanonical polyketide cyclizations, that are related to the conversion of poly-β-carbonyl compounds by the polyketide synthase machineries, could be feasible. of substrates to examine this hypothesis involved the preparation of cinnamyl biindene precursors which were accessed through an oxidative dimerization or a Suzuki crosscoupling strategy.…”

Section: Synthesis Of Enantioenriched Tetra-ortho-33'-substituted Bimentioning

confidence: 99%

“…Our group focused on the development of atroposelective areneforming aldol condensations, which were inspired by the biosynthesis of aromatic polyketides. [44,45] The amine catalyzed aldol methodology was found to be broadly applicable permitting the preparation of binaphthalene carbaldehydes, [46] configurationally stable oligo-1,2-naphthylenes [47] , axially chiral amides [48] and the stereodivergent synthesis of atropisomeric multi-axis systems. [49]…”

Section: Stereoselective Synthesis Of Atropisomersmentioning

confidence: 99%

Synthesis of Enantioenriched Tetra-ortho-3,3′-substituted Biaryls by Small-Molecule-Catalyzed Noncanonical Polyketide Cyclizations

Witzig¹,

Sparr²

2019

Synlett

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The arene-forming aldol condensation is a fundamental reaction in the biosynthesis of aromatic polyketides. Precisely controlled by the polyketide synthases, the highly reactive poly-β-carbonyl substrates are diverged into numerous aromatic natural products by selective cyclization reactions; a fascinating biosynthetic strategy that sparked our interest to investigate atroposelective aldol condensations. In this Account, we contextualize and highlight the ability of small-molecule catalysts to selectively convert noncanonical hexacarbonyl substrates in a double arene-forming aldol condensation resulting in the atroposelective synthesis of tetra-ortho-3,3′-substituted biaryls. The hexacarbonyl substrates were obtained by a fourfold ozonolysis enabling a late-stage introduction of all carbonyl functions in one step. Secondary amine catalysts capable of forming an extended hydrogen-bonding network triggered the noncanonical polyketide cyclization in order to form valuable biaryls in high yields and with stereocontrol of up to 98:2 er.1 Biosynthesis of Aromatic Polyketides2 Rotationally Restricted Aromatic Polyketides3 3,3′-Substituted Binaphthalenes in Catalysis4 Stereoselective Synthesis of Atropisomers5 Synthesis of Enantioenriched Tetra-ortho-3,3′-Substituted Biaryls by the Atroposelective Arene-Forming Aldol Condensation6 Conclusion

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“…The 1,8‐substitution pattern at the naphthalene bridging units employed here is expected to provide only weak through‐bond electronic coupling, and it seems plausible that the overall charge‐transfer pathway includes a mixture of through‐bond and through‐space interactions. Long‐range ET across oligo‐naphthalene structures is yet far less well explored than across oligo‐ p ‐phenylenes, and the insights gained here point to uncommon phenomena that deserve further attention in future studies, particularly in view of recent advances in the synthesis of oligo‐naphthalenes . The comparatively rigid and sterically congested molecular structures resulting from the naphthalene bridges used herein are rather uncommon for ET systems, and they provide access to a multitude of charge‐transfer pathways including σ‐, π‐ and through‐space interactions.…”

Section: Figurementioning

confidence: 99%

Mixed‐Valent Molecular Triple Deckers

et al. 2018

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Two phenothiazine (PTZ) moieties were connected via naphthalene spacers to a central arene to result in stacked PTZ-arene-PTZ structure elements. Benzene and tetramethoxybenzene units served as central arenes mediating electronic communication between the two PTZ units. Based on cyclic voltammetry, UV/Vis-NIR absorption, EPR spectroscopy, and computational studies, the one-electron oxidized forms of the resulting compounds behave as class II organic mixed-valence species in which the unpaired electron is partially delocalized over both PTZ units. The barrier for intramolecular electron transfer depends on the nature of the central arene sandwiched between the two PTZ moieties. These are the first examples of rigid organic mixed-valent triple-decker compounds with possible electron-transfer pathways directly across a stacked structure, and they illustrate the potential of oligo-naphthalene building blocks for long-range electron transfer and a future molecular electronics technology.

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Stereoselective Arene‐Forming Aldol Condensation: Catalyst‐Controlled Synthesis of Axially Chiral Compounds

Cited by 46 publications

References 72 publications

Catalyst‐Controlled Transannular Polyketide Cyclization Cascades: Selective Folding of Macrocyclic Polyketides

Catalyst‐Controlled Transannular Polyketide Cyclization Cascades: Selective Folding of Macrocyclic Polyketides

Synthesis of Enantioenriched Tetra-ortho-3,3′-substituted Biaryls by Small-Molecule-Catalyzed Noncanonical Polyketide Cyclizations

Mixed‐Valent Molecular Triple Deckers

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