Synthetic Strategies toward Natural Products Containing Contiguous Stereogenic Quaternary Carbon Atoms

Büschleb, Martin; Dorich, Stéphane; Hanessian, Stephen; Tao, Daniel J.; Schenthal, Kyle B.; Overman, Larry E.

doi:10.1002/anie.201507549

Cited by 318 publications

(156 citation statements)

References 253 publications

(244 reference statements)

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“…This method was used to construct oxetanes 90 and cyclopropanes 91 bearing quaternary carbon stereocenters, as well as the terpenoid natural products oridamycin A, triptoquinones B and C and isoiresin (not shown), 92 which incorporate vicinal quaternary carbon stereocenters. 93, 94 …”

Section: Acyclic Quaternary Carbon Stereocentersmentioning

confidence: 99%

Acyclic Quaternary Carbon Stereocenters via Enantioselective Transition Metal Catalysis

2017

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Whereas numerous asymmetric methods for formation of quaternary carbon stereocenters in cyclic systems have been documented, the construction of acyclic quaternary carbon stereocenters with control of absolute stereochemistry remains a formidable challenge. This review summarizes enantioselective methods for the construction of acyclic quaternary carbon stereocenters from achiral or chiral racemic reactants via transition metal catalysis.

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Section: Acyclic Quaternary Carbon Stereocentersmentioning

confidence: 99%

Acyclic Quaternary Carbon Stereocenters via Enantioselective Transition Metal Catalysis

2017

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“…1 A subset of these natural products, alkaloids comprised of multiple cyclotryptamine units, presents a considerable synthetic challenge due to the presence of multiple quaternary stereocenters as well as numerous basic nitrogen atoms (Figure 1). While there have been significant advances in catalyst- and substrate-controlled formation of C sp2 –C sp3 2,3 and C sp3 –C sp3 4,5,6,7 quaternary stereocenters in the context of cyclotryptamine alkaloids, 8 the synthesis of oligocyclotryptamines remains a challenge due to the paucity of methods allowing for precise introduction of all quaternary stereocenters.…”

Section: Introductionmentioning

confidence: 99%

Concise Synthesis of (−)-Hodgkinsine, (−)-Calycosidine, (−)-Hodgkinsine B, (−)-Quadrigemine C, and (−)-Psycholeine via Convergent and Directed Modular Assembly of Cyclotryptamines

Lindovska

Movassaghi

2017

J. Am. Chem. Soc.

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The enantioselective total synthesis of (−)-hodgkinsine, (−)-calycosidine, (−)-hodgkinsine B, (−)-quadrigemine C, and (−)-psycholeine through a diazene-directed assembly of cyclotryptamine fragments is described. Our synthetic strategy enables multiple and directed assembly of intact cyclotryptamine subunits for convergent synthesis of highly complex bis- and tris-diazene intermediates. Photoextrusion of dinitrogen from these intermediates enables completely stereoselective formation of all C3a–C3a' and C3a–C7' carbon–carbon bonds and all the associated quaternary stereogenic centers. In a representative example, photoextrusion of three dinitrogen molecules from an advanced intermediate in a single-step led to completely controlled introduction of four quaternary stereogenic centers and guided the assembly of four cyclotryptamine monomers en route to (−)-quadrigemine C. The synthesis of these complex diazenes was made possible through a new methodology for synthesis of aryl-alkyl diazenes using electronically attenuated hydrazine-nucleophiles for a silver-promoted addition to C3a-bromocyclotryptamines. The application of Rh- and Ir-catalyzed C–H amination reactions in complex settings were used to gain rapid access to C3a- and C7-functionalized cyclotryptamine monomers, respectively, used for diazene synthesis. This convergent and modular assembly of intact cyclotryptamines offers the first solution to access these alkaloids through completely stereoselective union of monomers at challenging linkages and the associated quaternary stereocenters as illustrated in our synthesis of five members of the oligocyclotryptamine family of alkaloids.

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“…1 A defining feature of these natural products is the presence of vicinal quaternary carbon stereocenters, which are particularly intriguing from both synthetic and biosynthetic perspectives. 2 Synthetic approaches to the vicinal quaternary stereocenters of these natural products have been developed and include Heck cyclization methodology, bis(alkylation) chemistry, pericyclic reactions, and radical couplings. 2 The biosynthetic pathways to these natural products, however, have been much less well-studied and the enzymes responsible for vicinal quaternary stereocenter formation have not been revealed.…”

mentioning

confidence: 99%

“…2 Synthetic approaches to the vicinal quaternary stereocenters of these natural products have been developed and include Heck cyclization methodology, bis(alkylation) chemistry, pericyclic reactions, and radical couplings. 2 The biosynthetic pathways to these natural products, however, have been much less well-studied and the enzymes responsible for vicinal quaternary stereocenter formation have not been revealed. Identifying the biocatalysts that form the C3-C3′ linkage is an important objective towards better understanding of indole dimer biosynthesis and how Nature can efficiently construct complex scaffolds.…”

mentioning

confidence: 99%

P450-Mediated Coupling of Indole Fragments To Forge Communesin and Unnatural Isomers

Lin

McMahon²,

Patel³

et al. 2016

J. Am. Chem. Soc.

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Dimeric indole alkaloids are structurally diverse natural products that have attracted significant attention from the synthetic and biosynthetic communities. Here we describe the characterization of a P450 monooxygenase CnsC from Penicillium that catalyzes the heterodimeric coupling between two different indole moieties, tryptamine and aurantioclavine, to construct vicinal quaternary stereocenters and yield the heptacyclic communesin scaffold. We show, using biochemical characterization, substrate analogs, and computational methods, that CnsC not only catalyzes the C3-C3 carbon-carbon bond formation, but also controls the regioselectivities of the pair of subsequent aminal bond formations to yield the communesin core. The use of ω-N-methyltryptamine and tryptophol in place to tryptamine led to the enzymatic synthesis of isocommunesin compounds, which have not been isolated to date.

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Synthetic Strategies toward Natural Products Containing Contiguous Stereogenic Quaternary Carbon Atoms

Cited by 318 publications

References 253 publications

Acyclic Quaternary Carbon Stereocenters via Enantioselective Transition Metal Catalysis

Acyclic Quaternary Carbon Stereocenters via Enantioselective Transition Metal Catalysis

Concise Synthesis of (−)-Hodgkinsine, (−)-Calycosidine, (−)-Hodgkinsine B, (−)-Quadrigemine C, and (−)-Psycholeine via Convergent and Directed Modular Assembly of Cyclotryptamines

P450-Mediated Coupling of Indole Fragments To Forge Communesin and Unnatural Isomers

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