The Carreira Synthesis of (±)-Gelsemoxonine

Organic Synthesis ◽

10.1093/oso/9780190200794.003.0104 ◽

2015 ◽

Author(s):

Douglass F. Taber

Keyword(s):

Carbon Monoxide ◽

Aldol Condensation ◽

Computational Study ◽

Addition Product ◽

Nitrile Oxide ◽

Reductive Cyclization ◽

Single Diastereomer ◽

Open Face ◽

Unsaturated Nitrile

The traditional Chinese pharmacopeia includes Gelsemium elegans benth, from which the alkaloid gelsemoxonine 3 was isolated. Erick M. Carreira of the Eidgenössische Technische Hochschule Zürich envisioned (J. Am. Chem. Soc. 2013, 135, 8500) that the unusual azetidine ring of 3 could be established by Brandi contraction of 1 to give 2. Following Brandi and Salaün (Eur. J. Org. Chem. 1999, 2725), the hemiketal 4 was carried onto the aldehyde 9. Condensation with nitromethane followed by dehydration gave the unsaturated nitrile oxide, which cyclized to 10. Epoxidation of 10 across the more open face gave an intermediate epoxide. Addition of 11 to the epoxide, promoted by InBr3, delivered 12 with good stereocontrol. CeCl3-mediated addition of 1-propynyl lithium completed the assembly of 1. A cyclopropanone could be seen as the addition product of carbon monoxide to an alkene. On exposure of 1 to acid, this formal addition was reversed, leading to the β-lactam 2. A computational study of this cleavage was recently reported (Eur. J. Org. Chem. 2011, 5608). Conceptually, one can imagine protonation activating the C–N bond for cleavage, leading to an intermediate such as 14, which then fragments to the acylium ion, leading to cyclization. It is unlikely that 14 would have any real lifetime. On warming with the Petasis reagent, the Boc-protected β-lactam was converted to the alkene 15. Hydroboration proceeded to give the alcohol 16 as a single diastereomer. Reduction followed by oxidation to 17 then set the stage for intramolecular aldol condensation to give 18. The last challenge was the diastereoselective assembly of the N-methoxyoxindole. To this end, oxidation and dehydration of 18 led to the bromo amide 20. As hoped, Heck reductive cyclization proceeded across the more open face of the alkene, leading to 21. Hydroxyl-directed hydrosilylation of the pendant alkyne to give the ethyl ketone then completed the synthesis of gelsemoxonine 3. Twice in this synthesis, advantage was taken of the preparation and reactivity of heteroatom-substituted alkenes. Dimethyl dioxirane, generated as a solution in acetone, was sufficiently water free that the epoxide derived from 10 could survive long enough to react in a bimolecular sense with the ketene silyl acetal 11.

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Reductive coupling of carbon monoxide by U(iii) complexes—a computational study

Dalton Transactions ◽

10.1039/c1dt10692a ◽

2011 ◽

Vol 40 (42) ◽

pp. 11080 ◽

Cited By ~ 18

Author(s):

Georgina Aitken ◽

Nilay Hazari ◽

Alistair S. P. Frey ◽

F. Geoffrey N. Cloke ◽

O. Summerscales ◽

...

Keyword(s):

Carbon Monoxide ◽

Computational Study ◽

Reductive Coupling

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Reactivity of Heavier Vinyl Anions [(CH3)2E═E′(CH3)]− (E, E′ = C, Si, Ge) toward Carbon Monoxide: A Computational Study

Organometallics ◽

10.1021/acs.organomet.7b00327 ◽

2017 ◽

Vol 36 (16) ◽

pp. 3035-3042 ◽

Cited By ~ 6

Author(s):

Cem B. Yildiz ◽

David Scheschkewitz

Keyword(s):

Carbon Monoxide ◽

Computational Study

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Selenium-catalyzed reductive cyclization and carbocyclization of 2,2′-dinitrostilbenes with carbon monoxide: One-shot synthesis of indolo[1,2-c]quinazolinones

Heteroatom Chemistry ◽

10.1002/hc.20685 ◽

2011 ◽

Vol 22 (3-4) ◽

pp. 571-575 ◽

Cited By ~ 8

Author(s):

Rui Umeda ◽

Shigeru Morishita ◽

Yutaka Nishiyama

Keyword(s):

Carbon Monoxide ◽

Reductive Cyclization

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Direct Synthesis of 6H-Chromeno[3,4-b]quinolin-6-ol Derivatives from Substituted 3-Nitro-2H-chromenes and 2-Nitrobenzaldehydes Mediated by Fe/AcOH System

Synthesis ◽

10.1055/s-0036-1589154 ◽

2017 ◽

Vol 50 (06) ◽

pp. 1350-1358 ◽

Cited By ~ 4

Author(s):

Cunde Wang ◽

Xushun Qing ◽

Ting Wang ◽

Chenlu Dai ◽

Zhenjie Su

Keyword(s):

Acetic Acid ◽

Nucleophilic Addition ◽

Aldol Condensation ◽

Direct Synthesis ◽

Reductive Cyclization ◽

Quinoline Derivatives ◽

Acid System ◽

X Ray ◽

X Ray Crystallography ◽

Sequential Reduction

An efficient iron/acetic acid system-mediated reductive cyclization reaction of substituted 2-aryl-3-nitro-2H-chromenes with substituted 2-nitrobenzaldehydes for the synthesis of 6-aryl-6H-chromeno[3,4-b]quinolines was developed. This reaction involves the sequential reduction, hydrolysis, aldol condensation, intramolecular addition, and the nucleophilic addition of substituted 2-aryl-3-nitro-2H-chromenes with substituted 2-nitrobenzaldehydes to give the corresponding 6H-chromeno[3,4-b]quinolines. This transformation provides a straightforward synthetic protocol for constructing substituted 6H-chromeno[3,4-b]quinoline derivatives. The structures of three typical products were confirmed by X-ray crystallography.

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Investigating the reaction pathways of chemical functionalization of C20 fullerene by nitrile oxide and azide; A computational study

Journal of Theoretical and Computational Chemistry ◽

10.1142/s0219633618500037 ◽

2018 ◽

Vol 17 (01) ◽

pp. 1850003

Author(s):

Sakineh Asghari ◽

Ali Asghar Gouran ◽

Davood Farmanzadeh ◽

Tahereh Abdollahi

Keyword(s):

Functional Group ◽

Computational Study ◽

Cycloaddition Reaction ◽

Nitrile Oxide ◽

Dipolar Cycloaddition ◽

Hydrazoic Acid ◽

Density Of State ◽

Electronic Density ◽

C20 Fullerene ◽

Oxide Group

In this study, the interactions between nitrile oxide (fulminic acid) and azide (hydrazoic acid) with the C[Formula: see text] fullerene were investigated and their priority in reacting and functionalizing surface of this fullerene were compared with each other. The results show that the 1,3-dipolar cycloaddition reaction between fulminic acid and C[Formula: see text] fullerene could occur faster than this reaction by hydrazoic acid. Therefore, nitrile oxide group as a dipole is much preferred compared to the azide functional group in reacting with the surface of C[Formula: see text] fullerene. In addition, the calculated adsorption energy and electronic density of state, DOS plots for the related species confirmed that the C[Formula: see text] fullerene can be used as sensors for sensing the hydrazoic acid and fulminic acid molecules.

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Low-Valent Titanium Induced Novel Reductive Cyclization of α,β-Unsaturated Nitrile Compounds

Synthesis ◽

10.1055/s-1998-2082 ◽

1998 ◽

Vol 1998 (06) ◽

pp. 851-854 ◽

Cited By ~ 21

Author(s):

Long-hu Zhou ◽

Shu-jiang Tu ◽

Da-qin Shi ◽

Gui-yuan Dai ◽

Wei-xing Chen

Keyword(s):

Reductive Cyclization ◽

Low Valent ◽

Unsaturated Nitrile

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The Ding Synthesis of Steenkrotin A

Organic Synthesis ◽

10.1093/oso/9780190646165.003.0106 ◽

2017 ◽

Author(s):

Douglass F. Taber

Keyword(s):

Intramolecular Cyclization ◽

Aldol Condensation ◽

Secondary Alcohol ◽

Folk Medicine ◽

Equilibrium Concentration ◽

Membered Ring ◽

Silyl Ether ◽

Enol Ether ◽

Bond Forming ◽

Open Face

Steenkrotin A 3 was isolated from Croton steenkampianus Gerstner, widely used in folk medicine for the treatment of coughs, fever, malaria, and rheumatism. Hanfeng Ding of Zhejiang University envisioned (Angew. Chem. Int. Ed. 2015, 54, 6905) that the intriguingly compact core of 3 could be assembled by reductive cyclization of the aldehyde 1 to 2, followed by intramolecular aldol condensation. The diastereoselective assembly of 1 from the cycloheptenone core 4 depended on the conformational preferences of the seven-membered ring. Enol ether formation followed by Rubottom oxidation led to the silyl ether 5. Oxidative rearrangement of the tertiary alcohol generated by 1,2-addition to 5 of in situ generated allyl lithium established the enone 6. Again taking advantage of the conformational preference of the seven-membered ring, cyclopropanation of the silyl enol ether derived from 6 proceeded across the open face of the electron-rich alkene to give 7. The other oxygenated quaternary center of 1 was constructed by O-alkylation of 7 with diazo malonate followed by methylation and reduction. Acetylation of the diol 8 proceeded with 10:1 diastereoselectivity, to give, after oxidation, the aldehyde 9. In the first of a sequence of three intramolecular bond-forming reactions, HF.py cyclized the aldehyde onto the endocyclic alkene, and also freed the alcohol, that was alkylated with the dibromide 10 to give 11 as a 1.5:1 mixture of diastereomers. On exposure to SmI2, the major diastereomer cyclized to give a intermediate that was carried on to 1. The minor diastereomer was merely reduced, to a product that could be recycled to 11. With 1 in hand, the stage was set for the second intramolecular cyclization. Even though 1 was predominantly in the lactol form, there was enough of an equilibrium concentration of aldehyde present for the SmI2-mediated cyclization to proceed smoothly to 2. With 2 in hand, in addition to the last intramolecular cyclization, the two stereogenic centers (marked by an asterisk) had to be inverted. The methyl group adjacent to the ketone was readily equilibrated. The secondary alcohol could be inverted by late-stage oxidation and reduction, and the authors did do that. However, they also observed a small amount of the desired epimeric alcohol 14 from the intramolecular aldol condensation of 12.

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The Bradshaw/Bonjoch Synthesis of (-)-Anominine

Organic Synthesis ◽

10.1093/oso/9780199965724.003.0097 ◽

2013 ◽

Author(s):

Douglass F. Taber

Keyword(s):

Natural Products ◽

Natural Product ◽

Aldol Condensation ◽

Selective Reduction ◽

Cross Coupling ◽

Conjugate Addition ◽

Quaternary Centers ◽

Selective Protection ◽

Open Face ◽

Robinson Annulation

The Hajos-Parrish cyclization was a landmark in the asymmetric construction of polycarbocyclic natural products. Impressive at the time, the proline-mediated intramolecular aldol condensation proceeded with an ee that was low by modern standards. Ben Bradshaw and Josep Bonjoch of the Universitat de Barcelona optimized this protocol, then used it to prepare (J. Am. Chem. Soc. 2010, 132, 5966) the enone 3 en route to the Aspergillus alkaloid (-)-anominine 4. The optimized catalyst for the enantioselective Robinson annulation was the amide 5 . With 2.5 mol % of the catalyst, the reaction proceeded in 97% ee. With only 1 mol % of catalyst, the reaction could be taken to 96% yield while maintaining the ee at 94%. Conjugate addition proceeded across the open face of 3 to give, after selective protection, the monoketal 7. After methylenation and deprotection, oxidation with IBX delivered the enone 9. With the angular quaternary centers of the natural product in place, the molecule became increasingly congested. Attempted direct alkylation of 9 led mainly to O-methylation. A solution to this problem was found in condensation with the Eschenmoser salt, followed by N-oxide formation and elimination to give the tetraene 10. Selective reduction by the Ganem protocol followed by equilibration completed the net methylation. Under anhydrous conditions, the oxide derived from the allylic selenide 12 did not rearrange. On the addition of water, the rearrangement proceeded smoothly. Protection and hydroboration converted 13 into 14. The bulk of the folded molecule protected the exo methylene of 14, so hydrogenation followed by protection and oxidation delivered 15. Conjugate addition of indole to 15 set the stage for oxidation and bis-methylenation to give 17. Selective Ru-mediated cross-coupling with 18 followed by deprotection then completed the synthesis of (-)-anominine 4, which proved to be the enantiomer of the natural product.

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