Acylation-reduction

Because acylation of an aromatic ring can be accomplished without rearrangement it is frequently used as the first step m a procedure for the alkylation of aromatic compounds by acylation-reduction As we saw m Section 12 6 Friedel-Crafts alkylation of ben zene with primary alkyl halides normally yields products having rearranged alkyl groups as substituents When a compound of the type ArCH2R is desired a two step sequence IS used m which the first step is a Friedel-Crafts acylation... 

The synthesis of butylbenzene illustrates the acylation-reduction sequence... 

The two step acylation-reduction sequence is required Acylation of benzene puts the side chain on the ring with the correct carbon skeleton Clemmensen reduc tion converts the carbonyl group to a methylene group... 

Acylation. Acylation is the most rehable means of introducing a 3-substituent on the indole ring. Because 3-acyl substituents can be easily reduced to 3-aLkyl groups, a two-step acylation—reduction sequence is often an attractive alternative to direct 3-aLkylation. Several kinds of conditions have been employed for acylation. Very reactive acyl haUdes, such as oxalyl chloride, can effect substitution directiy without any catalyst. Normal acid chlorides are usually allowed to react with the magnesium (15) or 2inc (16) salts. The Vilsmeier-Haack conditions involving an amide and phosphoms oxychloride, in which a chloroiminium ion is the active electrophile, frequentiy give excellent yields of 3-acylindoles. 

Thiazolidine-2,4-dione, 2-dialkylamino-bisimide synthesis, 5, 129 Thiazolidine-2,4-diones IR spectroscopy, 6, 242 tautomerism, 6, 270 Thiazolidine-2,5-diones synthesis, 5, 138 Thiazolidine-4,5-diones synthesis, 5, 129 6, 316-317 Thiazolidine-2,4-dithiones tautomerism, 6, 270 Thiazolidines "C NMR, 6, 243 conformation, 6, 242, 247 dihydrothiazines from, 2, 93 hydrolysis, 6, 273 IR spectra, 6, 242 ring fission, 5, 80 synthesis, 5, 118 6, 316-321 Thiazolidines, imino-tautomerism, 6, 273 Thiazolidines, methyl-conformation, 6, 242 Thiazolidine-2-thione, 3-acyl-reduction, 1, 469 Thiazolidine-2-thione, 4-alkyl-synthesis, 6, 318... 

Hiickel MO calculations have not revealed any intrinsic kinetic barrier to hydride migration to coordinated CO (93). Thus it is worthwhile to consider possibilities that might mask the occurrence of a metal hydride carbonylation reaction. For instance, metal hydrides have been observed to react rapidly with metal acyls reduction products such as aldehydes or bridging —CHRO— species form (94-96). Therefore, it is possible that a formyl complex might react with a metal hydride precursor at a rate competitive with its formation. Such a reaction could also complicate the decomposition chemistry of formyl complexes. Preliminary studies have in fact shown that metal hydrides can react with formyl complexes (35, 57), but a complete product analysis has not yet been done. 

The bond connecting the two fragments can be made by a Friedel-Crafts acylation-reduction sequence using the acyl chloride B. 

N-Acylation, reduction of nitro to amino, and condensation produce dihydrotriazine 5.31. This system is readily dehydrogenated with manganese dioxide to afford the fully aromatic heterocycle 5.32. Note how relatively simple chemistry can be used to form a quite complex heterocycle. 

Mechanism 19-6 Diazotization of an Amine 910 19-17 Reactions of Arenediazonium Salts 911 Summary Reactions of Amines 915 19-18 Synthesis of Amines by Reductive Amination 918 19-19 Synthesis of Amines by Acylation-Reduction 920... 

Acylation-reduction converts ammonia to a primary amine, a primary amine to a secondary amine, or a secondary amine to a tertiary amine. These reactions are quite general, with one restriction The added alkyl group is always 1° because the carbon bonded to nitrogen is derived from the carbonyl group of the amide, reduced to a methylene (—CH2—) group. 

Show how to synthesize A-ethylpyrrolidine from pyrrolidine using acylation-reduction. 

Like reductive amination, acylation-reduction adds an alkyl group to nitrogen. It is more restrictive, though, because the group added is always 1 °. 

Compare this synthesis with Solved Problem 19-5(b) to see how reductive amination and acylation-reduction can accomplish the same result. 

Show how to synthesize the following amines from the indicated starting materials by acylation-reduction. 

Working in the presence of acetic anhydride, acylating reduction of several 2-nitrophenothiazines was carried out it is assumed that both acetyl groups in the diacetyl derivative thus obtained are located at the exoeyclic nitrogen. 

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