Misplaced Pages

Bartoli indole synthesis

Article snapshot taken from Wikipedia with creative commons attribution-sharealike license. Give it a read and then ask your questions in the chat. We can research this topic together.
(Redirected from Bartoli reaction) Chemical reaction
Bartoli indole synthesis
Named after Giuseppe Bartoli
Reaction type Ring forming reaction
Identifiers
RSC ontology ID RXNO:0000494

The Bartoli indole synthesis (also called the Bartoli reaction) is the chemical reaction of ortho-substituted nitroarenes and nitrosoarenes with vinyl Grignard reagents to form substituted indoles.

The Bartoli indole synthesis
The Bartoli indole synthesis

The reaction is often unsuccessful without substitution ortho to the nitro group, with bulkier ortho substituents usually resulting in higher yields for the reaction. The steric bulk of the ortho group assists in the -sigmatropic rearrangement required for product formation. Three equivalents of the vinyl Grignard reagent are necessary for the reaction to achieve full conversion when performed on nitroarenes, and only two equivalents when performed on nitrosoarenes.

This method has become one of the shortest and most flexible routes to 7-substituted indoles. The Leimgruber-Batcho indole synthesis gives similar flexibility and regiospecificity to indole derivatives. One advantage of the Bartoli indole synthesis is the ability to produce indoles substituted on both the carbocyclic ring and the pyrrole ring, which is difficult to do with the Leimgruber-Batcho indole synthesis.

Reaction mechanism

The reaction mechanism of the Bartoli indole synthesis is illustrated below using o-nitrotoluene (1) and propenyl Grignard (2) to form 3,7-dimethylindole (13).

The mechanism of the Bartoli indole synthesis
The mechanism of the Bartoli indole synthesis

The mechanism begins by the addition of the Grignard reagent (2) onto the nitroarene (1) to form intermediate 3. Intermediate 3 spontaneously decomposes to form a nitrosoarene (4) and a magnesium salt (5). (Upon reaction workup, the magnesium salt will liberate a carbonyl compound (6).) Reaction of the nitrosoarene (4) with a second equivalent of the Grignard reagent (2) forms intermediate 7. The steric bulk of the ortho group causes a -sigmatropic rearrangement forming the intermediate 8. Cyclization and tautomerization give intermediate 10, which will react with a third equivalent of the Grignard reagent (2) to give a dimagnesium indole salt (12). Reaction workup eliminates water and gives the final desired indole (13).

Therefore, three equivalents of the Grignard reagent are necessary, as one equivalent becomes carbonyl compound 6, one equivalent deprotonates 10 forming an alkene (11), and one equivalent gets incorporated into the indole ring.

The nitroso intermediate (4) has been isolated from the reaction. Additionally, reaction of the nitroso intermediate (4) with two equivalents of the Grignard reagent produces the expected indole.

The scope of the reaction includes substituted pyridines which can be used to make 4-azaindoles(left) and 6-azaindoles(right).

Bartoli Indole Synth Scope

Variations

Dobbs modification

Adrian Dobbs greatly enhanced the scope of the Bartoli indole synthesis by using an ortho-bromine as a directing group, which is subsequently removed by AIBN and tributyltin hydride.

The Dobbs modification of the Bartoli indole synthesis
The Dobbs modification of the Bartoli indole synthesis

The synthesis of 4-methylindole (3) highlights the ability of this technique to produce highly substituted indoles.

See also

References

  1. Dalpozzo, R.; Bencivenni, G.; Sambri, L.; Marcantoni, E.; Melchiorre, P. (2020). "Giuseppe Bartoli (1941–2020)". Angewandte Chemie International Edition. 59 (18): 6962. doi:10.1002/anie.202002941. PMID 32167641.
  2. Bartoli, G.; Palmieri, G.; Bosco, M.; Dalpozzo, R. (1989). "The reaction of vinyl Grignard reagents with 2-substituted nitroarenes: A new approach to the synthesis of 7-substituted indoles". Tetrahedron Letters. 30 (16): 2129–2132. doi:10.1016/S0040-4039(01)93730-X.
  3. Bartoli, G.; Bosco, M.; Dalpozzo, R.; Palmieri, G.; Marcantoni, E. (1991). "Reactivity of nitro- and nitroso-arenes with vinyl Grignard reagents: synthesis of 2-(trimethylsilyl)indoles". Journal of the Chemical Society, Perkin Transactions 1. 1991 (11): 2757–2761. doi:10.1039/p19910002757.
  4. Dobbs, A. P.; Voyle, M.; Whitall, N. (1999). "Synthesis of Novel Indole Derivatives: Variations in the Bartoli Reaction". Synlett. 1999 (10): 1594–1596. doi:10.1055/s-1999-2900. S2CID 196737477.
  5. Dalpozzo, R.; Bartoli, G. (2005). "Bartoli Indole Synthesis" (PDF). Current Organic Chemistry. 9 (2): 163–178. doi:10.2174/1385272053369204. Archived from the original (PDF) on 2007-09-28.
  6. Dobson, D.; Todd, A.; Gilmore, J. (1991). "The Synthesis of 7-Alkoxyindoles". Synthetic Communications. 21 (5): 611–617. doi:10.1080/00397919108020827.
  7. Dobson, D. R.; Gilmore, J.; Long, D. A. (1992). "Synthesis of 7-Formylindole Using the Bartoli Indole Methodology". Synlett. 1992 (1): 79–80. doi:10.1055/s-1992-21273. S2CID 196759261.
  8. Bosco, M.; Dalpozzo, R.; Bartoli, G.; Palmieri, G.; Petrini, M. (1991). "Mechanistic studies on the reaction of nitro- and nitrosoarenes with vinyl Grignard reagents". Journal of the Chemical Society, Perkin Transactions 2. 1991 (5): 657–663. doi:10.1039/P29910000657.
  9. Zhang, Z.; Yang, Z.; Meanwell, N. A.; Kadow, J. F.; Wang, T. (2002). "A general method for the preparation of 4- and 6-azaindoles". J. Org. Chem. 67 (7): 2345–2347. doi:10.1021/jo0111614. PMID 11925251.
  10. Dobbs, A. (2001). "Total Synthesis of Indoles from Tricholoma Species via Bartoli / Heteroaryl Radical Methodologies". Journal of Organic Chemistry. 66 (2): 638–641. doi:10.1021/jo0057396. PMID 11429846.
Topics in organic reactions
List of organic reactions
Carbon-carbon
bond forming
reactions
Homologation reactions
Olefination reactions
Carbon-heteroatom
bond forming
reactions
Degradation
reactions
Organic redox
reactions
Rearrangement
reactions
Ring forming
reactions
Cycloaddition
Heterocycle forming reactions
Categories: