Amination reactions formation

Hydantoin itself can be detected ia small concentrations ia the presence of other NH-containing compounds by paper chromatography followed by detection with a mercury acetate—diphenylcarba2one spray reagent. A variety of analytical reactions has been developed for 5,5-disubstituted hydantoias, due to their medicinal iaterest. These reactions are best exemplified by reference to the assays used for 5,5-diphenylhydantoiQ (73—78), most of which are based on their cycHc ureide stmcture. Identity tests iaclude the foUowiag (/) the Zwikker reaction, consisting of the formation of a colored complex on treatment with cobalt(II) salts ia the presence of an amine (2) formation of colored copper complexes and (3) precipitation on addition of silver(I) species, due to formation of iasoluble salts at N. ... 

The hterature suggests that more than one mechanism may be operative for a given antiozonant, and that different mechanisms may be appHcable to different types of antiozonants. All of the evidence, however, indicates that the scavenger mechanism is the most important. All antiozonants react with ozone at a much higher rate than does the mbber which they protect. The extremely high reactivity with ozone of/)-phenylenediamines, compared to other amines, is best explained by their unique abiUty to react ftee-tadicaHy. The chemistry of ozone—/)-PDA reactions is known in some detail (30,31). The first step is beheved to be the formation of an ozone—/)-PDA adduct (32), or in some cases a radical ion. Pour competing fates for dissociation of the initial adduct have been described amine oxide formation, side-chain oxidation, nitroxide radical formation, and amino radical formation. 

Catalytic hydrogenation of the nitrile function of cyanohydrins can give amines. As in the case of ordinary nitriles, catalytic reduction of cyanohydrins can yield a mixture of primary, secondary, and tertiary amines. Addition of acid or acetic anhydride to the reaction medium minimizes formation of secondary or tertiary amines through formation of the amine salt or acetamide derivative of the primary amine. 

The reaction has been applied to more complex enamines 13) and to dienamines 19). The reduction may be rationalized by initial protonation at the enamine carbon and subsequent decarboxylation of formate ion and addition of the hydride ion to the iminium cation. This mechanism has been given support by the reaction of the enamine (205) with deuterated formic acid 143) to give the corresponding amines. The formation of 206 on reaction with DCOOH clearly indicates that protonation at the enamine carbon is the initial step. 

Aminodehalogenation - Menschutkin Reaction (Formation of Quaternary Amines)... 

The silyl ketene acetal rearrangement can also be carried out by reaction of the ester with a silyl triflate and tertiary amine, without formation of the ester enolate. Optimum results are obtained with bulky silyl triflates and amines, e.g., f-butyldimethylsilyl triflate and (V-methyl-Af, /V-dicyclohcxylaminc. Under these conditions the reaction is stereoselective for the Z-silyl ketene acetal and the stereochemistry of the allylic double bond determines the syn or anti configuration of the product.243... 

Amine-phosphorus halide reactions involve hydrogen halide (or amine hydrohalide) formation. They can be complicated through acid catalysis or side reactions. Thus, the possible formation of skeletally stabilized products through transamination reactions in which no hydrohalide products are obtained is of interest. 

Some functionalized thiophenes have been investigated in order to assess the scope of ylide-derived chemistry. As already mentioned, 2-(hydroxymethyl)thiophene still gives the S-ylide upon Rh2(OAe)4-catalyzed reaction with dimethyl diazomalonate 146 but O/H insertion instead of ylide formation seems to have been observed by other workers (Footnote 4 in Ref. 2S4)). From the room temperature reaction of 2-(aminomethyl)thiophene and dimethyl diazomalonate, however, salt 271 was isolated quite unexpectedly 254). Rh2(OAc)4, perhaps deactivated by the substrate, is useless in terms of the anticipated earbenoid reactions. Formation of a diazo-malonic ester amide and amine-catalyzed cyclization to a 5-hydroxytriazole seem to take place instead. 

Proteins may be modified with oxidized dextran polymers under mild conditions using sodium cyanoborohydride as the reducing agent. The reaction proceeds primarily through e-amino groups of lysine located at the surface of the protein molecules. The optimal pH for the reductive amination reaction is an alkaline environment between pH 7 and 10. The rate of reaction is greatest at pH 8-9 (Kobayashi and Ichishima, 1991), reflecting the efficiency of Schiff base formation at this pH. 

One of the possible ways to stabilize the amine-halonium complexes is to increase the basicity of the amine, bearing in mind that an appropriate one must also not have easily removable P-hydrogens which will lead to oxidation of the amine and formation of an imine. Quinuclidine (pKa of quinuclidinium ion is 11.3 (55)) is 105-106-fold more basic than the pyridines and both the bromonium (10 (36)) and iodonium (11 (57)) BF4 salts have been made and characterized by X-ray crystallography. Interestingly, although the reaction must generally occur as outlined in Figure 7, neither of these ions shows any observable reaction... 

The reductive amination reaction (Scheme 12.10) has two steps the formation of imine and the reduction of imine. The single bead FTIR results (Fig. 12.14) show the combined result of both steps. The aldehyde IR bands at 1682 and 2769 cm disappeared in the final product. However, this did not suggest that the... 

Scheme 14.—Formation of A-Substituted Aldosylamine by the Carbonyl-Amine Reaction.. ...

The results obtained in the photostimulated Sj l reaction between carbanions from 2,4,4-trimethyl-2-oxazoline or 2,4-dimethylthiazole and 2-bromopyridine are also consistent with the incomplete formation of the carbanions in KNH2-NH3(ii ) system. In these cases, 2-aminopyri-dine is formed alongside the corresponding pyridyl-2-methylene oxazolinyl or thiazolyl substitution products (Wong et al. 1997). When the Sr I pathway is impeded by conducting the reaction in the dark or in the presence of di(tert-butyl) nitroxide, the ionic amination reaction dominates. 

As mentioned previously, only in the amination reaction of 4-piperidino-5-bromopyrimidine was an SnH tele amination observed. Besides the 6-amino-4-piperidinopyrimidine, a small amount of 2-amino-4-piperidinopy-rimidine was isolated. Its formation is depicted in Scheme 11.29. The formation of this compound can be considered as additional proof of the vulnerability of position 2 in the pyrimidine ring for nucleophilic attack, as observed in the formation of 52. 

Formation of UTP requires successive phosphorylations using ATP. CTP is, in turn, formed from UTP by an amination reaction in the pyrimidine ring, with the amino acid glutamine supplying the nitrogen this is also an ATP-dependent reaction. 

The aminal reaction is cyclic ensuring the formation of an abundance of radicals that effect the polymerization of TEGMA. 

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