Furan acylation

AIkyl-3-pyiidinols (54) aie lepoited to be formed from acyl furans and ammonia under pressure (66—68). 

Furan can also be acylated by the Vilsmeier-Haack method. Acylation of furans can also be carried out with acid anhydrides and acyl halides in the presence of Friedel-Crafts catalysts (BF3-Et20, SnCU or H3PO4). Reactive anhydrides such as trifluoroacetic anhydride, however, require no catalyst. Acetylation with acetyl p-toluenesulfonate gives high yields. 

Thiophene is also readily acylated under both Friedel-Crafts and Vilsmeier-Haack conditions and similarly to pyrrole and furan gives 2-acylated products. An almost quantitative conversion of thiophene into its 2-benzoyl derivative is obtained by reaction with 2-benzoyloxypyridine and trifluoroacetic acid. The attempted preparation of 2-benzoylthiophene under standard Friedel-Crafts conditions, however, failed (80S139). 

Acyl-pyrroles, -furans and -thiophenes in general have a similar pattern of reactivity to benzenoid ketones. Acyl groups in 2,5-disubstituted derivatives are sometimes displaced during the course of electrophilic substitution reactions. iV-Alkyl-2-acylpyrroles are converted by strong anhydrous acid to A-alkyl-3-acylpyrroles. Similar treatment of N-unsubstituted 2- or 3-acyIpyrroles yields an equilibrium mixture of 2- and 3-acylpyrroles pyrrolecarbaldehydes also afford isomeric mixtures 81JOC839). The probable mechanism of these rearrangements is shown in Scheme 65. A similar mechanism has been proposed for the isomerization of acetylindoles. 

Benzo[b]furan, 2,3-dihydro-2-phenyl-synthesis, 4, 697 Benzo[b]furan, 2,3-dihydroxy-tautomerism, 4, 37 Benzo[6]furan, 4,6-dimethoxy-acylation, 4, 606 Benzo[6]furan, 2,3-dimethyl-acetylation, 4, 606 bromination, 4, 605 photooxygenation, 4, 642 Benzo[b]furan, 5,6-dimethyl-2,3-diphenyl-applications, 4, 709 Benzo[b]furan, 1,3-diphenyl-vertical ionization potential, 4, 587 Benzo[b]furan, 2-ethoxy-5-hydroxy-synthesis, 4, 127... 

Benzo[c]furan, 1,3,4,7-tetraphenyl-steric hindrance, 4, 542 synthesis, 4, 683 Benzo[b]furan-3-acetic acid synthesis, 3, 686 Benzo[b]furan-3-amine, 2-acyl-tautomerism, 4, 648 Benzo[b]furan-2-carboxamides synthesis, 3, 685... 

Benzo[6]furan-2-carboxylic acid, 5-acyl-2,3-dihydro-applications, 4, 708... 

Furan, 3-acetyl-5-(hydroxymethyl)-2-methyl-synthesis, 4, 663 Furan, 2-acyl-synthesis, 4, 148, 690 Furan, 3-acyl-synthesis, 4, 662, 670 Furan, 4-acyl-2-alkyl-synthesis, 4, 688 Furan, 3-acylamino-tautomerism, 4, 38... 

Perfluoroalkanoyl chlorides and anhydrides are also acylating agents Tri-fluoroacetic anhydride acylates a number of pyrroles, thiophenes, and furans without a catalyst [37, 38, 39] AzuUne can be diacylated without a catalyst in 12 h [40] (equation 26). 

Similarly, 1-alkylpyrroles, indoles, furans, thiophenes [60], a-picoline [61], enols, malonates [76], and organometallic compounds [56, 62] react with acyl imines of trifluoropyruvates to give derivatives of a-trifluoromethyl a-amino acids... 

Acyl-3-aminobenzo[6]furans also exist as amino tautomers (76JPR 313). 

Esters of diphenylacetic acids with derivatives of ethanol-amine show mainly the antispasmodic component of the atropine complex of biologic activities. As such they find use in treatment of the resolution of various spastic conditions such as, for example, gastrointestinal spasms. The prototype in this series, adiphenine (47), is obtained by treatment of diphenyl acetyl chloride with diethylaminoethanol. A somewhat more complex basic side chain is accessible by an interesting rearrangement. Reductive amination of furfural (42) results in reduction of the heterocyclic ring as well and formation of the aminomethyltetrahydro-furan (43). Treatment of this ether with hydrogen bromide in acetic acid leads to the hydroxypiperidine (45), possibly by the intermediacy of a carbonium ion such as 44. Acylation of the alcohol with diphenylacetyl chloride gives piperidolate (46). ... 

Reaction of the potassium salt of salicylaldehyde with chlo-roacetone affords first the corresponding phenolic ether aldol cyclization of the aldehyde with the ketonic side chain affords the benzofuran (1). Reduction of the carbonyl group by means of the Wolf-Kischner reaction affords 2-ethyl-benzofuran. Friedel-Crafts acylation with anisoyl chloride proceeds on the remaining unsubstituted position on the furan ring (2). The methyl ether is then cleaved by means of pyridine hydrochloride (3). lodina-tion of the phenol is accomplished by means of an alkaline solution of iodine and potassium iodide. There is thus obtained benziodarone (4)... 

Almost every major structural class discussed to date has featured at least one nonsteroidal antiinflammatory carboxylic acid. It is thus perhaps not surprising to find a dibenzoheterocycle serving as the nucleus for one of these agents, furobufen (34). Straightforward Friedel-Crafts acylation of dibenzo-furan (33) with succinic anhydride affords a mixture of 2- and 3-acylated products, with the latter predominating. The mixture is esterified with methanol, and the methyl ester of the 3-isomer is separated by fractional crystallization. Hydrolysis back to the... 

It is assumed that first biradical 5-63 is formed on addition of 5-62 to photochemi-caUy excited 5-61. There follows a ring closure involving the triple bond to yield a-acyl-a, (5-uri saturated carbene 5-64. The carbene moiety then undergoes a final 6jt electrocyclic ring closure on the carbonyl group to give the desired furan 5-65. 

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