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DOI: 10.1055/s-0040-1705958
Reaction of Lithiated Propargyl Ethers with Carbonyl Compounds – A Regioselective Route to Furan Derivatives
This work was supported by the Deutsche Forschungsgemeinschaft.
Abstract
The deprotonation of 3-aryl-substituted alkyl propargyl ethers with n-butyllithium provides an ambident anion that reacts with carbonyl compounds to provide mixtures of γ-substituted products with alkoxyallene substructure and of α-substituted propargyl ethers. The ratio of the two product types strongly depends on the solvent: in diethyl ether the γ-substituted products predominate whereas the more polar tetrahydrofuran favors the α-adducts. The primary addition products undergo 5-endo-trig or 5-endo-dig cyclizations under various reaction conditions to afford isomeric furan derivatives. The highest selectivity in favor of α-substituted products was achieved by employing a MOM-protected propargyl ether. During the protonation step no evidence for a proton shift leading to an isomeric allenyl anion was found. A brief mechanistic discussion tries to rationalize the observed regioselectivities.
Key words
alkoxyallene - alkyne - cyclization - furan - gold catalysis - lithiation - regioselectivity - silver catalysisSupporting Information
- Supporting information for this article is available online at https://doi.org/10.1055/s-0040-1705958.
- Supporting Information
Publication History
Received: 20 August 2020
Accepted after revision: 26 September 2020
Article published online:
28 October 2020
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References
- 1a Zimmer R. Synthesis 1993; 165
- 1b Reissig H.-U, Zimmer R. Donor-Substituted Allenes . In Modern Allene Chemistry . Krause N, Hashmi AS. K. Wiley-VCH; Weinheim: 2004: 425
- 1c Zimmer R, Reissig H.-U. Chem. Soc. Rev. 2014; 43: 2888
- 1d Tius MA. Chem. Soc. Rev. 2014; 43: 2979
- 2a Brasholz M, Reissig H.-U, Zimmer R. Acc. Chem. Res. 2009; 42: 45
- 2b Pfrengle F, Reissig H.-U. Chem. Soc. Rev. 2010; 39: 549
- 2c Nedolya A, Tarasova O, Volostnykh OG, Albanov AL, Klyba LV, Trofimov BA. Synthesis 2011; 2192
- 2d Reissig H.-U, Zimmer R. Synthesis 2017; 49: 3291
- 2e Schmiedel VM, Reissig H.-U. Curr. Org. Chem. 2019; 23: 2976
- 3a Clinet JC, Linstrumelle G. Tetrahedron Lett. 1978; 1137
- 3b Hausherr A, Orschel B, Scherer S, Reissig H.-U. Synthesis 2001; 1377
- 3c Hausherr A, Reissig H.-U. Synthesis 2018; 50: 2546
- 3d Hausherr A, Zimmer R, Reissig H.-U. Synthesis 2019; 51: 486
- 4a Mantione M, Alves A. C. R. Acad. Sc. Paris, Ser. C 1969; 268: 997
- 4b Mercier F, Epsztein R, Holand S. Bull. Soc. Chim. Fr. 1972; 690
- 4c Verkruijsse HD, Verboom W, Van Rijn PE, Brandsma L. J. Organomet. Chem. 1982; 232: C1
- 5 Chowdhury MA, Reissig H.-U. Synlett 2006; 2383
- 6 Lechel T, Dash J, Hommes P, Lentz D, Reissig H.-U. J. Org. Chem. 2010; 75: 726
- 7a Flögel O, Dash J, Brüdgam I, Hartl H, Reissig H.-U. Chem. Eur. J. 2004; 10: 4283
- 7b Dash J, Lechel T, Reissig H.-U. Org. Lett. 2007; 9: 5541
- 8a Lechel T, Reissig H.-U. Pure Appl. Chem. 2010; 82: 1835
- 8b Lechel T, Reissig H.-U. In Targets in Heterocyclic Systems - Chemistry and Properties, Volume 20. Attanasi OA, Merino P, Spinelli D. Italian Society of Chemistry; Rome: 2016: 1-32
- 8c Lechel T, Kumar R, Bera MK, Zimmer R, Reissig H.-U. Beilstein J. Org. Chem. 2019; 15: 655
- 9 We are well aware of the fact, that the presentation of G′ and G′′ as ambident carbanion and their connection with a resonance arrow are questionable. Alternatively, G′ and G′′ could be two carbanions being in equilibrium by a metallotropic rearrangement. However, the aryl group also contributes to the stabilization of the negative charge and a relatively weak interaction of the carbanion with the lithium counter ion is likely (solvent separated ion pair). Hence our (simplified) description should be appropriate. For a recent comprehensive discussion of the metallotropic rearrangement of lithiated alkyl-substituted propargyl ethers, see: Fortunato M, Gimbert Y, Rousset E, Lameiras P, Martinez A, Gatard S, Plantier-Royon R, Jaroschik F. J. Org. Chem. 2020; 85: 10681
-
10 In the experiments very fragmentarily described in ref. 4a, diethyl ether was employed as solvent. The reaction with isobutyric aldehyde provided a mixture of products probably mainly derived from γ-addition. The experiments described in ref. 4b were performed in THF as solvent and the α-addition products are formed as major products. No ratios of products are given in these studies, but these two earlier investigations seem to confirm our findings with respect to the solvent effect.
- 11a Leroux Y, Mantione R. Tetrahedron Lett. 1971; 591
- 11b Leroux Y, Mantione R. J. Organomet. Chem. 1971; 30: 295
-
12 The samples to be quenched with CD3OD were taken by syringe from the reaction mixture. This experimental protocol may cause slight warming of the sample before reaction with CD3OD.
-
13 The analytical limit of 1H NMR analysis of unpurified products is estimated to be ca. 5%. We conclude that less than 5% of 3 are formed.
- 14a Leandri G, Monti H, Bertrand M. Tetrahedron 1974; 30: 289
- 14b Olsson L.-I, Claesson A. Synthesis 1979; 743
- 14c Marshall JA, Bartley GS. J. Org. Chem. 1994; 59: 7169
- 14d Okala Amombo M, Hausherr A, Reissig H.-U. Synlett 1999; 1871
- 15a Hoff S, Brandsma L, Arens JF. Recl. Trav. Chim. Pays-Bas 1969; 88: 609
- 15b Gange D, Magnus P. J. Am. Chem. Soc. 1978; 100: 7746
- 15c Hormuth S, Reissig H.-U. J. Org. Chem. 1994; 59: 67
- 15d For a recent computational study, see: Cumine F, Young A, Reissig H.-U, Tuttle T, Murphy JA. Eur. J. Org. Chem. 2017; 6867
- 16a Gockel B, Krause N. Org. Lett. 2006; 8: 4485
-
16b
Brasholz M,
Reissig H.-U.
Angew. Chem. Int. Ed. 2007; 46: 1634 ; Angew. Chem. 2007, 119, 1659
- 16c Brasholz M, Dugovič B, Reissig H.-U. Synthesis 2010; 3855
- 16d Okala Amombo MG, Flögel O, Kord Daoroun Kalai S, Schoder S, Warzok U, Reissig H.-U. Eur. J. Org. Chem. 2017; 1965
- 17a Praveen C, Kiruthiga P, Perumal PT. Synlett 2009; 1990
- 17b Aponik A, Li C.-Y, Malinge J, Emerson FM. Org. Lett. 2009; 11: 4624
- 17c Egi M, Azechi K, Akai S. Org. Lett. 2009; 11: 5002
-
17d
Alcaide B,
Almendros P,
Alonso JM.
Org. Biomol. Chem. 2011; 9: 4405
- 17e Corma A, Leyva-Pérez A, Sabater MJ. Chem. Rev. 2011; 111: 1657
- 17f Alcaide B, Almendros P. Acc. Chem. Res. 2014; 47: 939
-
18 This solvent and concentration effect may strongly influence the results reported in ref. 4. Unfortunately, the experimental data given in these publications do not allow an estimate of the solvent ratios employed.
- 19 Vrancken E, Alouane N, Gérard H, Mangeney P. J. Org. Chem. 2007; 72: 1770
- 20a Klein J, Brenner S. Tetrahedron 1970; 26: 2345
- 20b Reich HJ, Holladay J. J. Am. Chem. Soc. 1995; 117: 8470
- 20c Maercker A, Fischenich J. Tetrahedron 1995; 51: 10209
- 21a Kirsch SF. Org. Biomol. Chem. 2006; 4: 2076
- 21b Schmidt B, Geißler D. Eur. J. Org. Chem. 2011; 4814
- 21c Chang S, Desai S, Leznoff DB, Merbouh N, Britton R. Eur. J. Org. Chem. 2013; 3219
- 21d Schmidt D, Malakar CC, Beifuss U. Org. Lett. 2014; 16: 4862
- 21e Blanc A, Bénéteau V, Weibel J.-M, Pale P. Org. Biomol. Chem. 2016; 14: 9184
- 21f Tata RR, Harmata M. Eur. J. Org. Chem. 2018; 327
- 21g Zang W, Wei Y, Shi M. Chem. Commun. 2019; 55: 8126
- 21h Sasmal A, Roisnel T, Bera JK, Doucet H, Soulé J.-F. Synthesis 2019; 51: 3241
- 21i Hu X, Zhou B, Jin H, Liu Y, Zhang L. Chem. Commun. 2020; 56: 7297
- 22 Alickmann D, Fröhlich R, Maulitz AH, Würthwein E.-U. Eur. J. Org. Chem. 2002; 1523
- 23 Barluenga J, Fanlo H, López S, Flórez J. Angew. Chem. Int. Ed. 2007; 46: 4136 ; Angew. Chem. 2007, 119, 4214
- 24 Roesch KR, Larock RC. J. Org. Chem. 2001; 66: 412
Alkyl-substituted alkoxyallenes:
First use of alkyl- and aryl-substituted propargyl ethers as precursor of 3-substituted alkoxyallenes:
Reviews:
For earlier examples of silver catalysis for cyclization reactions in allene chemistry, see:
These conditions of gold catalysis have first been applied to the cyclization of other allene derivatives:
For the gold-catalyzed formation of furan derivatives starting from alkynols, see:
For selected reviews on gold-catalyzed reactions, including isomerizations of alkynols, see:
For discussions of the structure of simple and hetero-atom-substituted propargyl-/allenyllithium species based on NMR studies, see:
For recent selected reports on the synthesis of specifically substituted furan derivatives, see: