Amines, acetylation acylation

Acylation of thiosemicarbazide with propionyl chloride, interestingly, does not stop at the acylated product (124). Instead, this intermediate cyclizes to the thiadiazole, 125, under the reaction conditions. Hydrolysis then affords the heterocyclic amine, 126. Acylation by 88 followed by removal qf the acetyl group affords sulfaethidole (116) variation of thle acid chloride used in the preparation of the heterocycle leads to 117 and 118. 

In a related procedure, even benzene and substituted benzenes (e.g., PhMe, PhCl, xylenes) can be converted to phenols in good yields with sodium perborate F3CS020H. " Aromatic amines, N-acyl amines, and phenols were hydroxylated with H2O2 in SbFs—HF. Pyridine and quinoline were converted to their 2-acetoxy derivatives in high yields with acetyl hypofluorite AcOF at -75°C. ... 

Primary and secondary amines are acylated by acid chlorides and anhydrides, in particular also by the chloride of benzene sulphonic add (p. 192). The preparation of acetanilide has already been described (pp. 125, 128). The acetyl- and benzoyl-derivatives of all the simpler primary amines of the benzene and naphthalene series are known, so that these derivatives can always serve for purposes of identification. 

Amin Acetyl-[2-oxo-2-(2,4,6-trimethyl-phenyl)-ethyliden]-E14b, 236 [C(C1)—NH-Acyl -C = N — Acyl]... 

Acetanilide, CeHeNH.COCHa, which is an important derivative of aniline, is an example of the compounds formed as the result of the replacement of a hydrogen atom in an aromatic amine by acyl radicals. Acetanilide is formed when aniline is treated with acetyl chloride or acetic anhydride —... 

In the formation of certain imidazole-derived alkaloids (D 20) and of indole alkaloids of the barman type (D 21.3) the condensation takes place obviously via a stable amide. This amide is formed as described above from the amine and acyl Co A, in case of barman for instance from tryptamine and acetyl Co A ... 

The presence of free radicals in the reaction of tertiary amines and benzoyl peroxide has been observed by electron spin resonance (ESR) spectroscopy [67-69]. The reaction of amines with acyl peroxide is much more rapid than the thermal decomposition of the peroxide alone [70]. For example, benzoyl peroxide [53] with dimethylaniline at 0 C in styrene or chloroform exhibits an apparent second-order rate constant of 2,3 X 10 sec However, acetyl [41] and lauroyl peroxide [71,72] react somewhat slower. 

Acylation. Aliphatic amine oxides react with acylating agents such as acetic anhydride and acetyl chloride to form either A[,A/-diaLkylamides and aldehyde (34), the Polonovski reaction, or an ester, depending upon the polarity of the solvent used (35,36). Along with a polar mechanism (37), a metal-complex-induced mechanism involving a free-radical intermediate has been proposed. 

The resulting acetyl compound is usually hydrolyzed with aqueous alkaU to give the free amine. Other A/-acyl derivatives may be used, particularly for the less soluble succinyl and phthaloyl products. The use of -nitrobenzenesulfonyl chloride, followed by reduction of the nitro to an amino function, is much more expensive and is rarely used. A/-Acetylsulfanilyl chloride [121 -60-8] is obtained by the chlorosulfonation of acetanilide [103-84-4] which is the basic material for most of the sulfonamides. 

Purines, N-alkyl-N-phenyl-synthesis, 5, 576 Purines, alkylthio-hydrolysis, 5, 560 Mannich reaction, 5, 536 Michael addition reactions, 5, 536 Purines, S-alkylthio-hydrolysis, 5, 560 Purines, amino-alkylation, 5, 530, 551 IR spectra, 5, 518 reactions, 5, 551-553 with diazonium ions, 5, 538 reduction, 5, 541 UV spectra, 5, 517 Purines, N-amino-synthesis, 5, 595 Purines, aminohydroxy-hydrogenation, 5, 555 reactions, 5, 555 Purines, aminooxo-reactions, 5, 557 thiation, 5, 557 Purines, bromo-synthesis, 5, 557 Purines, chloro-synthesis, 5, 573 Purines, cyano-reactions, 5, 550 Purines, dialkoxy-rearrangement, 5, 558 Purines, diazoreactions, 5, 96 Purines, dioxo-alkylation, 5, 532 Purines, N-glycosyl-, 5, 536 Purines, halo-N-alkylation, 5, 529 hydrogenolysis, 5, 562 reactions, 5, 561-562, 564 with alkoxides, 5, 563 synthesis, 5, 556 Purines, hydrazino-reactions, 5, 553 Purines, hydroxyamino-reactions, 5, 556 Purines, 8-lithiotrimethylsilyl-nucleosides alkylation, 5, 537 Purines, N-methyl-magnetic circular dichroism, 5, 523 Purines, methylthio-bromination, 5, 559 Purines, nitro-reactions, 5, 550, 551 Purines, oxo-alkylation, 5, 532 amination, 5, 557 dipole moments, 5, 522 H NMR, 5, 512 pJfa, 5, 524 reactions, 5, 556-557 with diazonium ions, 5, 538 reduction, 5, 541 thiation, 5, 557 Purines, oxohydro-IR spectra, 5, 518 Purines, selenoxo-synthesis, 5, 597 Purines, thio-acylation, 5, 559 alkylation, 5, 559 Purines, thioxo-acetylation, 5, 559... 

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). ... 

A variant on this structure, dioxyline, has much the same activity as the natural product but shows a better therapeutic ratio. Reduction of the oxime (113) from 3,4-dimethoxyphenyl-acetone (112) affords the veratrylamine homolog bearing a methyl group on the amine carbon atom (114). Acylation of this with 4-ethoxy-3-methoxyphenyl acetyl chloride gives the corresponding amide (115). Cyclization by means of phosphorus oxychloride followed by dehydrogenation over palladium yields dioxyline (116). ... 

Organic synthesis 9 [OS 9] Acetyl chloride acylation of n-butyl amine... 

Aromatic amines 4 are metabolised in vivo by cytochrome P450 mediated oxidation to phenolic and hydroxylamine derivatives 5 and 6. Phase II conjugation of the latter with PAPS or acyl transferase results in formation of the sulfuric or acetic acid esters 7. Nitrogen conjugation to give the A-acetyl analogues is also possible (Scheme l).54 65... 

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