Displacement dimethylamine

C. Nucleophilic Attack on Other Atoms.—Amidoximes have been shown to react with tris(dimethylamino)phosphine by displacing dimethylamine to give the phosphine oxides (52), but some N-substituted aromatic amidoximes give derivatives of (53). ... 

With secondary amines such as piperidine or dimethylamine the formal products (169) of cine substitution are obtained with primary amines e.g. /-butylamine), in addition to the displacement product (173), a rearranged product (174) is obtained in which the nitrogen-bearing methyl becomes exocyclic 80CC123). Earlier studies on the reaction of... 

Phenyl diazonium ion, PhN2, reacts with nucleophiles in several ways. Water displaces N2 to give phenol, while dimethylamine adds to the terminal N. 

Only 4-amination of 2,4-dimercaptopyrimidine occurs with ammonia, methylamine, or dimethylamine, but both mercapto groups can be displaced in its 5-nitro derivative. 

Condensation of ethyl acetoacetate with phenyl hydrazine gives the pyrazolone, 58. Methylation by means of methyl iodide affords the prototype of this series, antipyrine (59). Reaction of that compound with nitrous acid gives the product of substitution at the only available position, the nitroso derivative (60) reduction affords another antiinflammatory agent, aminopyrine (61). Reductive alkylation of 61 with acetone in the presence of hydrogen and platinum gives isopyrine (62). Acylation of 61 with the acid chloride from nicotinic acid affords nifenazone (63). Acylation of 61 with 2-chloropropionyl chloride gives the amide, 64 displacement of the halogen with dimethylamine leads to aminopropylon (65). ... 

Substitution of an additional nitrogen atom onto the three-carbon side chain also serves to suppress tranquilizing activity at the expense of antispasmodic activity. Reaction of phenothia zine with epichlorohydrin by means of sodium hydride gives the epoxide 121. It should be noted that, even if initial attack in this reaction is on the epoxide, the alkoxide ion that would result from this nucleophilic addition can readily displace the adjacent chlorine to give the observed product. Opening of the oxirane with dimethylamine proceeds at the terminal position to afford the amino alcohol, 122. The amino alcohol is then converted to the halide (123). A displacement reaction with dimethylamine gives aminopromazine (124). ... 

Alkylated sulfonamide groups have proven useful additions to the phenothiazine nucleus. The same seems to hold true in the thioxanthene series. Chlorosulfonation of the benzoic acid, 38, followed by displacement with dimethylamine affords the sulfonamide, 39. This is then taken on to the substituted thioxanthone (41) by the sequence of steps shown above Grignard condensation followed by dehydration gives thiothixine (42). 

The derivative from an isomeric fused system has been described as a sedative-hypnotic compound. The synthesis starts by condensation of the aminopicoline 32 with the haloketone 33. The resulting pyrrolo[l,2-a]pyridine 34 then undergoes a Mannich reaction with formaldehyde and dimethylamine to give the aminomethylated derivative 35. After quatemization of the di-methylamino group in 35 with methyl iodide, the ammonium group is displaced by cyanide to... 

CENTRAL RING CONTAINING ONE HETEROATOM Reaction of 2-bromobenzoic acid (1) with chloroSulfonic acid proceeds to afford the sulfonyl chloride 2 treatment with dimethylamine leads to the corresponding sulfonamide (3). Condensation of bromoacid 3 with the anion from thiophenol in the presence of copper powder results in displacement of halogen by sulfur... 

Preparation by reaction of tantalum pentachloride with pure lithium dimethylamide in pentane is unsafe. Initial non-reaction is followed by explosion during manipulation of the slurry. Presence of ether or dimethylamine gives smooth reaction. Stepwise displacement of chlorine, starting with the free amine, is also recommended. 

The Sonogashira reaction is of considerable value in heterocyclic synthesis. It has been conducted on the pyrazine ring of quinoxaline and the resulting alkynyl- and dialkynyl-quinoxalines were subsequently utilized to synthesize condensed quinoxalines [52-55], Ames et al. prepared unsymmetrical diynes from 2,3-dichloroquinoxalines. Thus, condensation of 2-chloroquinoxaline (93) with an excess of phenylacetylene furnished 2-phenylethynylquinoxaline (94). Displacement of the chloride with the amine also occurred when the condensation was carried out in the presence of diethylamine. Treatment of 94 with a large excess of aqueous dimethylamine led to ketone 95 that exists predominantly in the intramolecularly hydrogen-bonded enol form 96. 

Deacetylvinblastine acylazide (62) was later shown to be an exceptionally versatile intermediate for the preparation of C-3 amides. Since nucleophilic displacement of azide occurs at relatively low temperatures under mild conditions, a wide variety of C-3 derivatives have been prepared (Scheme 1, Table III). This observation is in contrast to the direct amino-lysis of vinblastine which usually fails when the amine employed is substituted (e.g., p-hydroxyethylamine) or secondary (dimethylamine). The reactions can be conveniently followed by the disappearance of the CO—N, infrared band at 2135 cm" with the concomitant appearance of the CO—NHj band in the region 1665-1675 cm". Acetylation of the... 

Grignard gives the tertiary alcohol after hydrolysis. Reaction of the alcohol with hydrochloric acid proceeds with rearrangement and opening of the strained cyclopropane to give a chloride. Sn2 displacement of the chloride with dimethylamine forms amitriptyline. Alternatively, dibenzosuberone can be reacted with dimethylaminopropyl Grignard to form an alcohol, which upon dehydration forms amitriptyline. 

A detailed study of the conversion of 3,4-dichloro-l,2,5-thiadiazole into 3,4-diamino-l,2,5-thia-diazole has been carried out <76JHC13>. Reaction with lithium or sodium amide produces only 4% of the diamine together with cyano-containing by-products, a consequence of direct attack on sulfur. Use of a less powerful nucleophile, ammonia or potassium phthalimide, resulted in an increased attack on carbon and produced the diamine in 24% and 66% yields, respectively. Secondary amines, e.g. morpholine <76JOC3l2l> and dimethylamine <72JMC315>, produce the normal displacement products. The reaction of dichlorothiadiazole with potassium fluoride in sulfolane gives a mixture of 3-chloro-4-fluoro and 3,4-difluoro-l,2,5-thiadiazole <82CB2135>. 

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