Metal-catalyzed enyne cycloisomerization in natural product total synthesis

It is thought that the pseudopterane class of diterpenoid natural products, of which 11-gorgiacerol is a member, arises biosynthetically by a photo-ring contraction of the related furanocembranes. Johann Mulzer at the University of Vienna has applied (Org. Lett. 2012, 14, 2834) this logic to realize the total synthesis of 11-gorgiacerol. Ringclosing metathesis of the butenolide 1 using the Grubbs second generation catalyst produced the tricycle 2. When irradiated, 2 undergoes a 1,3-rearrangement to furnish the natural product in good yield. Whether this rearrangement is concerted, or occurs stepwise via a diradical intermediate, is not known. Although ring-closing metathesis has become a reliable method for macrocycle construction, its use here to set what then becomes an extracyclic olefin is notable. Berkelic acid is produced by an extremophile bacterium penicillium species that lives in the toxic waters of an abandoned copper mine, and this natural product has been found to possess some very intriguing biological activities. Not surprisingly, berkelic acid has attracted significant attention from synthetic chemists, including Francisco J. Fañanás of Universidad de Oviedo in Spain, who has developed (Angew. Chem. Int. Ed. 2012, 51, 4930) a scalable, protecting-group free total synthesis. The key step in this route is the remarkable silver(I)-catalyzed coupling of alkyne 3 and aldehyde 4 to produce, after hydrogenation, the structural core 5 of (–)-berkelic acid on a gram scale. Some tools from the field of organocatalysis have been brought to bear (Angew. Chem. Int. Ed. 2012, 51, 5735) on a new total synthesis of the macrolide (+)-dactylolide by Hyoungsu Kim of Ajou University in Korea and Jiyong Hong of Duke University. The bridging tetrahydropyranyl ring is fashioned by way of an intramolecular 1,6-oxa conjugate addition of dienal 6 to produce 8 under catalysis by the secondary amine 7. Following some synthetic manipulations, the macrocyclic ring 12 is subsequently forged by an NHC-catalyzed oxidative macrolactonization using the carbene catalyst 10 and diphenoquinone 11 as the oxidant. A new approach to the nanomolar antimitotic agent spirastrellolide F methyl ester has been reported (Angew. Chem. Int. Ed. 2012, 51, 8739) by Alois Fürstner of the Max-Planck-Institut, Mülheim. Two elegant metal-catalyzed processes form the key basis of this strategy.

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Total Synthesis of Oxepin and Dihydrooxepin Containing Natural Products

Synthesis ◽

10.1055/s-0037-1610776 ◽

2021 ◽

Author(s):

Thomas Magauer ◽

Kevin Rafael Sokol

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Radical Cyclization ◽

Sigmatropic Rearrangement ◽

Natural Product Synthesis ◽

Synthetic Methods ◽

Acid Catalyzed ◽

Metal Catalyzed ◽

Key Steps

AbstractThe construction of oxepin and dihydrooxepin containing natural products represents a challenging task in total synthesis. In the last decades, a variety of synthetic methods have been reported for the installation of these structural motifs. Herein, we provide an overview of synthetic methods and strategies to construct these motifs in the context of natural product synthesis and highlight the key steps of each example.1 Introduction2 Oxepin Natural Products3 Dihydrooxepin Natural Products3 Brønsted or Lewis acid Catalyzed Cyclization3.2 Radical Cyclization3.3 Substitution and Addition Cyclization3.4 Sigmatropic Rearrangement3.5 Oxidative Methods3.6 Transition Metal Catalyzed Cyclization4 Summary

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Heronapyrrole D: A case of co-inspiration of natural product biosynthesis, total synthesis and biodiscovery

Beilstein Journal of Organic Chemistry ◽

10.3762/bjoc.10.121 ◽

2014 ◽

Vol 10 ◽

pp. 1228-1232 ◽

Cited By ~ 21

Author(s):

Jens Schmidt ◽

Zeinab Khalil ◽

Robert J Capon ◽

Christian B W Stark

Keyword(s):

Antibacterial Activity ◽

Natural Products ◽

Total Synthesis ◽

Asymmetric Synthesis ◽

Natural Product ◽

Joint Effort ◽

Natural Product Biosynthesis ◽

New Members ◽

Degree Of Oxidation ◽

Rare Class

The heronapyrroles A–C have first been isolated from a marine-derived Streptomyces sp. (CMB-0423) in 2010. Structurally, these natural products feature an unusual nitropyrrole system to which a partially oxidized farnesyl chain is attached. The varying degree of oxidation of the sesquiterpenyl subunit in heronapyrroles A–C provoked the hypothesis that there might exist other hitherto unidentified metabolites. On biosynthetic grounds a mono-tetrahydrofuran-diol named heronapyrrole D appeared a possible candidate. We here describe a short asymmetric synthesis of heronapyrrole D, its detection in cultivations of CMB-0423 and finally the evaluation of its antibacterial activity. We thus demonstrate that biosynthetic considerations and the joint effort of synthetic and natural product chemists can result in the identification of new members of a rare class of natural products.

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Total Synthesis of the Reported Structure of Cahuitamycin A

10.26434/chemrxiv.12702137.v1 ◽

2020 ◽

Author(s):

Justin Shapiro ◽

Savannah Post ◽

William Wuest

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Twelve Step ◽

Target Compound ◽

New Family ◽

Iron Trafficking ◽

Linear Sequence ◽

Alternative Structure ◽

Synthetic Target

In a 2016 screen of natural product extracts a new family of natural products, the cahuitamycins, was discovered and found to inhibit the formation of biofilms in the human pathogen Acinetobacter baumannii. The molecules contain an unusual piperazate residue that raises structure/function and biosynthesis questions and resemble iron-trafficking virulence factors from A. baumannii, suggesting a connection between metal homeostasis and biofilm-mediated pathogenicity. Here we disclose the first total synthesis of the reported structure of cahuitamycin A in a twelve-step longest linear sequence and 18% overall yield. Comparison of spectral data of the authentic natural product and synthetic target compound demonstrate that the reported structure is distinct from the isolated metabolite. Herein, we propose an alternative structure to reconcile our findings with the isolation report, setting the stage for future synthetic and biochemical investigations of an important class of natural products.

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Transition-Metal-Catalyzed Reactions Involving Arynes

Synthesis ◽

10.1055/s-0036-1589517 ◽

2017 ◽

Vol 50 (01) ◽

pp. 1-16 ◽

Cited By ~ 25

Author(s):

Santosh Mhaske ◽

Ranjeet Dhokale

Keyword(s):

Natural Products ◽

Transition Metal ◽

Total Synthesis ◽

Scientific Community ◽

Multicomponent Reactions ◽

Polycyclic Aromatic Compounds ◽

Polycyclic Aromatic ◽

Transition Metal Catalyzed ◽

Catalyzed Reactions ◽

Metal Catalyzed

The plethora of transformations attainable by the transition-metal-catalyzed reactions of arynes has found immense contemporary interest in the scientific community. This review highlights the scope and importance of transition-metal-catalyzed aryne reactions in the field of synthetic organic chemistry reported to date. It covers transformations achieved by the combination of arynes and various transition metals, which provide a facile access to a biaryl motif, fused polycyclic aromatic compounds, different novel carbocycles, various heterocycles, and complex natural products.1 Introduction2 Insertion of Arynes3 Annulation of Arynes4 Cycloaddition of Arynes5 Multicomponent Reactions of Arynes6 Miscellaneous Reactions of Arynes7 Total Synthesis of Natural Products Using Arynes8 Conclusion

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Synthetic study of ravidomycin, a hybrid natural product

Pure and Applied Chemistry ◽

10.1351/pac200072091783 ◽

2000 ◽

Vol 72 (9) ◽

pp. 1783-1786 ◽

Cited By ~ 9

Author(s):

Keisuke Suzuki

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Amino Sugar ◽

Antitumor Antibiotics ◽

Ready Availability ◽

Silyl Acetals ◽

Gilvocarcin V ◽

Absolute Stereochemistry

Strategies and tactics associated with the total synthesis of hybrid natural products are discussed. The target is ravidomycin (2), one of the gilvocarcin-class antitumor antibiotics with an aryl C-glycoside structure. The first total synthesis of 2, which was achieved along similar lines of that of gilvocarcin V (1), served for the determination of the relative as well as the absolute stereochemistry of 2. Also revealed was a limitation of the synthetic scheme so long as the amino sugar congener was concerned. A preliminary result is discussed on the [2+2+2] approach that relies on the ready availability of various benzocyclobutene derivatives via regioselective [2+2] cycloaddition of α-alkoxybenzynes and ketene silyl acetals.

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Harnessing the biocatalytic potential of iron- and α-ketoglutarate-dependent dioxygenases in natural product total synthesis

Natural Product Reports ◽

10.1039/c9np00075e ◽

2020 ◽

Vol 37 (8) ◽

pp. 1065-1079 ◽

Cited By ~ 3

Author(s):

Christian R. Zwick ◽

Hans Renata

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Oxidative Transformations

This review highlights recent chemoenzymatic syntheses of natural products that feature strategic applications of oxidative transformations with Fe/αKG enzymes.

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Recent advances in the synthesis of oxaspirolactones and their application in the total synthesis of related natural products

Organic & Biomolecular Chemistry ◽

10.1039/c9ob01212e ◽

2019 ◽

Vol 17 (31) ◽

pp. 7270-7292 ◽

Cited By ~ 7

Author(s):

Sagar S. Thorat ◽

Ravindar Kontham

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Medicinal Chemistry ◽

Natural Product Chemistry ◽

Structural Motifs ◽

Recent Advances ◽

Synthetic Molecules ◽

Product Chemistry

Oxaspirolactones are ubiquitous structural motifs found in natural products and synthetic molecules with a diverse biochemical and physicochemical profile, and represent a valuable target in natural product chemistry and medicinal chemistry.

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Ir-Catalyzed reactions in natural product synthesis

Organic Chemistry Frontiers ◽

10.1039/c7qo00665a ◽

2018 ◽

Vol 5 (1) ◽

pp. 132-150 ◽

Cited By ~ 7

Author(s):

Pengquan Chen ◽

Yuecheng Wu ◽

Shifa Zhu ◽

Huanfeng Jiang ◽

Zhiqiang Ma

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Natural Product Synthesis ◽

Catalyzed Reactions

This review highlights the recent applications of Ir-catalyzed reactions in the total synthesis of natural products.

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Synthesis of Highly Functionalised Furo[3,4-b]pyrans: Towards the Fungal Metabolite (−)-TAN-2483B

10.26686/wgtn.17142947 ◽

2021 ◽

Author(s):

◽

R.M. Kalpani K. Somarathne

Keyword(s):

Natural Products ◽

Total Synthesis ◽

Natural Product ◽

Cyclopropane Ring ◽

Ring Expansion ◽

Ethyl Esters ◽

Pyran Ring ◽

Synthetic Strategy ◽

Alternative Approach ◽

Synthetic Approaches

Carbohydrate-derived cyclopropanes combine both the stereochemical wealth of carbohydrates and the reactivity of cyclopropanes. A diverse variety of reaction modes for these cyclopropyl carbohydrates can be harnessed for the synthesis of natural products and other targets. The natural products (−)-TAN-2483A and (−)-TAN-2483B are fungal secondary metabolites displaying a variety of bioactivities such as inhibition of c-src kinase action and parathyroid hormone-induced bone resorption. This thesis described several synthetic approaches to the natural product (−)-TAN-2483B and analogues of (−)-TAN-2483B employing cyclopropane ring expansion. The synthetic route to (−)-TAN-2483B began with the readily available substrate D-mannose. The pyran ring unsaturation of the natural product was established by a cyclopropanation-ring expansion sequence. A synthetic strategy via dichlorocyclopropane-based intermediates is described in chapter 2. This being unsuccessful, an alternative approach via 2-fomyl-glycal was developed in chapter 3. The chapter 2 and 3 provided a solid background for the achievement of the analogues synthesis illustrated in chapter 4 via dibromocyclopropane. Lewis acid-mediated alkynylation followed by Pdcatalysed carbonylative lactonisation was successfully utilised in the revelation of the furo[3,4-b]pyran ring skeleton. This route afforded analogues of TAN-2483B; the Z-and E-unsaturated ethyl esters 140 and 141 and hydroxy(−)-TAN-2483B 145. The total synthesis of (−)-TAN-2483B was not achieved due to unforeseen obstacles encountered in the deoxygenation of the side arm of 335 (Chapter 4) into the E-propenyl side arm of (−)-TAN-2483B.

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