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Bromine of amines

Soedjak HS, A Butler (1990) Charactarization of vanadium bromoperoxidase from Macrocystis and Fucus reactivity of bromoperoxidase towards acyl and alkyl peroxides and bromination of amines. Biochemistry 29 7974-7981. [Pg.145]

The reaction is applicable to the preparation of amines from amides of aliphatic aromatic, aryl-aliphatic and heterocyclic acids. A further example is given in Section IV,170 in connexion with the preparation of anthranilic acid from phthal-imide. It may be mentioned that for aliphatic monoamides containing more than eight carbon atoms aqueous alkaline hypohalite gives poor yields of the amines. Good results are obtained by treatment of the amide (C > 8) in methanol with sodium methoxide and bromine, followed by hydrolysis of the resulting N-alkyl methyl carbamate ... [Pg.413]

Mono-substitution products of primary amines cannot easUy be prepared by direct action of the appropriate reagent for example, bromination of aniline yields largely the 2 4 6-tribomo derivative and nitration results in much oxidation. If, however, the amino group is protected as in acetanilide, smooth substitution occurs. Thus with bromine, />-bromoacetanilide is the main product the small quantity of the ortlio isomeride simultaneously formed can be easily eliminated by crystallisation. Hydrolysis of p-bromoacetanilide gives/ -bromoaniline ... [Pg.577]

The dream of every X chemist is to get that amine function directly on the safrole molecule without having to go thru any intermediate such as the ketone of MD-P2P or the bromine of bromosafrole. But Strike can tell you right now that that is very, very tough (that is why there ain t no methods for it). About the only article Strike has ever found for the actual placement of an amine directly on a terminal alkene (a.k.a. safrole) is the following [79] ... [Pg.183]

Acrylonitrile will polymerize violendy in the absence of oxygen if initiated by heat, light, pressure, peroxide, or strong acids and bases. It is unstable in the presence of bromine, ammonia, amines, and copper or copper alloys. Neat acrylonitrile is generally stabilized against polymerization with trace levels of hydroquinone monomethyl ether and water. [Pg.185]

Bromination of the methyl group of (249) with A -bromosuccinimide, followed by reaction with excess secondary amine gave (250) which shows combined analgesic and antitussive properties. The Reformatsky reaction has also been used for the preparation of 2-amino-ethyl 3,3-diaryl-3-hydroxypropanates (251) as well as their dehydration products. The propene amides (252) have also been prepared for pharmacological evaluation. In l-methyl-3-bis (2-thienyl)-... [Pg.120]

The prototype of the antihistamines based on benzhydrol, diphenhydramine (3), is familiar to many today under the trade name Benadryl . Light-induced bromination of diphenylmethane affords benzhydryl bromide (2). This is then allowed to react with dimethylaminoethanol to give the desired ether. Although no mechanistic studies have been reported, it is not unlikely that I he bromine undergoes SNi solvolysis in the reaction medium the carbonitjm ion then simply picks up the alcohol. It might be noted in passing that the theophyline salt of 4 is familiar to many Iravelers as a motion sickness remedy under the trade name Oram amine . [Pg.41]

Synthesis of the prototype begins with Friedel Crafts acetylation of salicylamide ( ). Bromination of the ketone (25) followed by displacement with amine gives the corresponding ami noketone ( ). Catalytic hydrogenation to the ami noalcohol completes the synthesis of labetolol (24). The presence of two chiral centers at remote positions leads to the two diastereomers being obtained in essentially equal amounts. [Pg.25]

A phenyl ethanol amine in which the nitrogen is alkylated by a long chain alphatic group departs in activity from the prototypes. This agent, suloctidil (43) is described as a peripheral vasodilator endowed with platelet antiaggregatory activity. As with the more classical compounds, preparation proceeds through bromination of the substituted propiophen-one ( ) and displacement of halogen with octyl amine. Reduction, in this case by means of sodium borohydride affords suloctidil (43). ... [Pg.26]

Bis(bromomethyl)-5//-dibenz[/), / ]azepines, e.g. 12, prepared by free-radical bromination of the 10,11-dimethyl compound with yV-bromosuccinimide, on treatment with a primary alkyl-amine followed by alkaline hydrolysis, yield l,2,3,8-tetrahydrodibenzo[. /]pyrrolo[3,4-<7]-azepines, e.g. 13, which possess useful pharmacological properties.91,163... [Pg.277]

Regioselective bromination of phenols gave 2-bromo-, 4-bromo-, 2,6-dibromo-, 2,4-dibromo, 2-bromo-6-substituted, 4-bromo-2-substituted and 2,4-dibromo-6-substitutgd phenols, respectively. Especially, 2-bromo-, 2,6-dibromo- and 2-bromo-6-substituted phenols which were prepared via long steps, were obtained in NBS-amine (primary and secondary) system in high yields under ordinary conditions. The scope and their mechanisms were discussed. [Pg.4]

We considered A-bromoamines which generated in situ from the reaction of NBS and various amines, should promote the o/t/io-dibromination of phenol. The results of the bromination with NBS in the presence of amines are summarized in Table 2. [Pg.8]

The distribution of the products was only slightly influenced by the added amount of the amine in the bromination. Even a 0.1 molar amount of diisopropylamine was sufficiently effective. From these results, it was concluded that the amine worked catalytically in the selective orf/io-bromination of phenol. Regioselective bromination of phenol was summarized in Scheme 2. [Pg.9]

Our method, NBS-amine system, is applied to orf/zo-bromination of 2-substituted phenols (e.g. 2-allyIphenol, o-cresol, 2-bromophenol, and 2-chloro-phenol) (Table 4). [Pg.10]

The mechanism of the orf/to-dibromination of phenol with NBS in the presence of amines is considered as follows. The hydrogen bonding between phenol and N-bromoamine which are generated from the reaction of NBS and amines (ref. 14), is the driving force, and causes the bromination at one o/t/io-position of phenol and regeneration of the amines. A catalytic amount of the amines is enough because of the regeneration of the amines. The repetition of the above process causes one more substitution at the other orf/io-position of 2-bromophenol. In the cases of 2-substituted phenols the orf/io-bromination can occur only once (Scheme 5). [Pg.13]

Because the tertiary amines cannot be brominated by NBS, they do not influence the o/tAo-bromination of phenols. Though the hydrogen bonding between the phenolic OH and NBS will be formed, the bonding is inferred to be weaker than that between the OH and the (V-bromoamines. The nucleophilicity (or basicity) of the nitrogen atom of A -bromoamines is stronger than that of NBS. This is why traces of A -bromoamines can react with phenols continuously. [Pg.14]

Hydrogen bonding between Br2 and 2-substituted phenols having electron-donating group is strong enough to orf/io-brominate these phenols. Therefore, o/t/io-bromination of phenol, o-cresol and 2-allylphenol was promoted by only NBS without amines. [Pg.14]

Our recent studies on effective bromination and oxidation using benzyltrimethylammonium tribromide (BTMA Br3), stable solid, are described. Those involve electrophilic bromination of aromatic compounds such as phenols, aromatic amines, aromatic ethers, acetanilides, arenes, and thiophene, a-bromination of arenes and acetophenones, and also bromo-addition to alkenes by the use of BTMA Br3. Furthermore, oxidation of alcohols, ethers, 1,4-benzenediols, hindered phenols, primary amines, hydrazo compounds, sulfides, and thiols, haloform reaction of methylketones, N-bromination of amides, Hofmann degradation of amides, and preparation of acylureas and carbamates by the use of BTMA Br3 are also presented. [Pg.29]

Berthelot et al. have already reported that the reaction of aromatic amines with tetrabutylammonium tribromide (TBA Br3) in chloroform gave p-selective bromo-substituted aromatic amines (ref. 10). We also carried out the bromination of... [Pg.33]

The N-bromination of amides with bromine and alkali has been extensively researched as the first step of the Hofmann degradation. However, it is difficult to isolate the N-bromoamides because of their subsequent reaction to produce amines, which proceeds very readily under excessive alkaline conditions. Now, the reaction of amides with a stoichiometric amount of BTMA Br3 and sodium hydroxide in ice-water gave N-bromoamides in fairly good yields. Our method can be applied to various types of aliphatic, aromatic, and heterocyclic amides (Fig. 31) (ref. 39). [Pg.45]

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See also in sourсe #XX -- [ Pg.1195 ]



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