Aminolysis synthesis

Synthesis. One of the more common routes for the synthesis of aminoboranes involves the aminolysis of the appropriate boron hahde. Trisaminoboranes are most convenientiy prepared by adding BCI3 to an excess of amine in an inert solvent at low temperatures (42). For example for tris(dimetby1amino)borane [4375-83-1]. ... 

There are two basic strategies for enzyme-catalyzed peptide synthesis equiUbrium- and kineticaHy controlled synthesis. The former is the direct reversal of proteolysis and involves the condensation of an amino component with unactivated carboxyl component. The latter proceeds by the aminolysis of an activated peptide ester. 

Probably the best synthesis of 5-methylcytosine is via its 2-thio analogue (964 X = S) (49JBC(177)357) but the following briefly-described route may be preferable 2,4-dimethoxy-5-methylpyrimidine (965) with acetyl chloride gives the 1-acetyl derivative (966) which on aminolysis in aqueous ammonia gives 5-methylcytosine (964 X = O) in good overall yield (68TL2171). 

Pyrimidine, 5-acetyI-2,4-dimethyI-synthesis, 3, 125 Pyrimidine, acylamino-deaeylation, 3, 85 Pyrimidine, alkoxy-hydrolysis, 3, 91 Primary Synthesis, 3, 134 synthesis, 3, 132, 134 Pyrimidine, 2-alkoxy-aminolysis, 3, 92 rearrangement, 3, 92, 135 synthesis, 3, 134 transalkoxylation, 3, 92 Pyrimidine, 4-alkoxy-aminolysis, 3, 92 rearrangement, 3, 92, 135 synthesis, 3, 134 transalkoxylation, 3, 92 Pyrimidine, 6-alkoxy-aminolysis, 3, 92 rearrangement, 3, 92, 135 synthesis, 3, 134 transalkoxylation, 3, 92 Pyrimidine, alkyl-halogenation, 3, 76 nitration, 3, 77 oxidation, 3, 76 synthesis, 3, 124... 

Pyrimidine, I-alkyl-2-methyltetrahydro-C-thioacylation, 4, 807 Pyrimidine, 4-alkylsulfinyl-nucleophilie displaeement reaetions, 3, 97 Pyrimidine, 6-alkylsulfinyl-nucleophilic displacement reactions, 3, 97 Pyrimidine, 2-alkylsulfonyl-nueleophilie displaeement reactions, 3, 97 Pyrimidine, 4-alkylsulfonyl-nucleophilic displacement reactions, 3, 97 Pyrimidine, 6-alkylsulfonyl-nucleophilie displaeement reactions, 3, 97 Pyrimidine, alkylthio-dealkylation, 3, 95 desulfurization, 3, 95 oxidation, 3, 96 synthesis, 3, 135, 136 Pyrimidine, 2-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Prineipal Synthesis, 3, 136 Pyrimidine, 4-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Pyrimidine, 6-alkylthio-aminolysis, 3, 96 hydrolysis, 3, 95 Pyrimidine, 4-allenyloxy-rearrangement, 3, 93 Pyrimidine, 4-allyloxy-2-phenyl-rearrangement, 3, 93 Pyrimidine, 4-allynyloxy-rearrangement, 3, 93 Pyrimidine, 4-anilino-2,5,6-trifluoro-NMR, 3, 63 Pyrimidine, 2-aryl-pyrroleaeetic aeid from, 4, 152 Pyrimidine, arylazo-synthesis, 3, 131 Pyrimidine, 4-arylazo-reduetion, 3, 88... 

Pyrimidine, 5-benzyl-4,6-dimethyl-2-phenyl-synthesis, 3, 118 Pyrimidine, 2-benzyl-5-nitro-synthesis, 3, 130 Pyrimidine, benzyloxy-pyrimidinone synthesis from, 3, 133 Pyrimidine, 4,5-bis(alkylamino)-synthesis, 3, 121 Pyrimidine, 2-bromo-aminolysis, 3, 100 H NMR, 3, 62 reactions... 

Pyrimidine, 4-efaloro-2-metfayltfaio-thiolysis, 3, 102 Pyrimidine, 5-cyano-synthesis, 3, 129 Pyrimidine, 4,6-dibenzyloxy-hydrolysis, 3, 91 Pyrimidine, diefaloro-aminolysis, 3, 99 Pyrimidine, 2,4-diefaloro-aminolysis, 3, 99 Pyrimidine, 4,6-diefaloro-aleofaolysis, 3, 100 aminolysis, 3, 99... 

Pyrimidine, 4-fluoro-2-isopropyl-synthesis, 3, 140 Pyrimidine, 4-fluoro-2-methoxy-synthesis, 3, 140 Pyrimidine, 4-fluoro-2-methyl-NMR, 3, 63 Pyrimidine, halo-aleoholysis, 3, 100 aminolysis, 3, 99 as antitumour agents, 3, 152 bipyrimidines from, 3, 103 Buseh biaryl synthesis, 3, 103 hydrolysis, 3, 101... 

Pyrimidine, 2-methylthio-5-nitro-aminolysis, 3, 96 Pyrimidine, nitro-reactivity, 3, 84-88 synthesis, 3, 130 Pyrimidine, 3-nitro-synthesis, 2, 504 Pyrimidine, 5-nitro-cation... 

Pyrimidine-5-carbonitrile, 4-amino-6-methyl-synthesis, 3, 114 Pyrimidinecarbonitriles alcoholysis, 3, 83 aminolysis, 3, 83 hydrolysis, 3, 83, 127 oxides... 

Pyrimidine-4(3H)-thione, 6-methoxy-5-nitro-reduction, 3, 88 Pyrimidinethiones acidic pK, 3, 60 S-acylation, 3, 95 N-alkylated synthesis, 3, 139 aminolysis, 3, 94 desulfurization, 3, 93 electrophilic reactions, 3, 69 hydrolysis, 3, 94 oxidation, 3, 94, 138 pyrimidinone synthesis from, 3, 133 reactions... 

Quinazoline-4(3 H) -thione, 2-methy 1-synlhesis, 3, 136 Quinazolinethiones structure, 3, 67 synthesis, 3, 136 Quinazoline-4-thiones aminolysis, 3, 94... 

Uracil, 5-methoxy-6-methoxymethyl-2-thio-synthesis, 3, 134 Uracil, 1-methyl-aminolysis, 3, 91 synthesis, 3, 110 Uracil, l-methyl-5,6-dihydro-synthesis, 3, 110 Uracil, 6-methyl-3-phenyl-synthesis, 3, 110 Uracil, 3-methyi-2-thio-synthesis, 3, 112 Uracil, 6-methyl-2-thio-oxidation, 3, 94 Uracil, 5-nitro-... 

The efficiency of this method was demonstrated by the elegant two-step synthesis of aspartame [87], Protection of the a-amino group and activation of the a-carboxylic group are accomplished in only one step Deprotection of the amino functionality occurs during aminolysis, such as with methyl phenylalaninate (H-Phe-OMe in equation 15)... 

Modification of the Erlenmeyer reaction has been developed using imines of the carbonyl compounds, obtained with aniline," benzylamine or n-butylamine. Ivanova has also shown that an A-methylketimine is an effective reagent in the Erlenmeyer azlactone synthesis. Quantitative yield of 19 is generated by treatment of 3 equivalents of 2-phenyl-5(4ff)-oxazolone (2) (freshly prepared in benzene) with 1 equivalent of iV-methyl-diphenylmethanimine (18) in benzene. Products resulting from aminolysis (20), alkali-catalyzed hydrolysis (21), and alcoholysis (22) were also described. 

Scheme 2.14 Synthesis of vinylaziridines by aminolysis of vinylepoxides by liquid ammonia.

The strategy described here explains the different possibilities of enzymatic ammonolysis and aminolysis reaction for resolution of esters or preparation of enantiomerically pure amides, which are important synthons in organic chemistry. This methodology has been also applied for the synthesis of pyrrolidinol derivatives that can be prepared via enzymatic ammonolysis of a polyfunctional ester, such as ethyl ( )-4-chloro-3-hydroxybutanoate [30]. In addition, it is possible in the resolution of chiral axe instead of a stereogenic carbon atom. An interesting enzymatic aminolysis of this class of reaction has been recently reported by Aoyagi et al. [31[. The side chain of binaphthyl moiety plays an important role in the enantiodis-crimination of the process (Scheme 7.14). 

Preparation of optically active P-aminoesters, P-aminonitriles, and P-aminocarbox-amides are of special relevance for the synthesis of enantiomerically pure P-aminoacids compounds of special relevance in several areas of medicinal chemistry. The resolution of P-aminoesters can be carried out by acylation of the amino groups or by other biocatalytic reactions of the ester groups, such as hydrolysis, transesterification, or aminolysis. The resolution of ethyl ( )-3-aminobutyrate... 

Scattered reports of the synthesis of the cyclophosphazene ring system from the aminolysis of halophosphoranes continue to appear. The most interesting of these is the synthesis of the first spirocyclic organophosphazenes, [(C PNlj from (C )... 

We have also explored the use of the dehydrocoupling reaction for the synthesis of preceramlc polysilazanes starting from the precursor MeNH-[H2SlNMe]x-H. As described above, MeNH-[H2SlNMe]X H Is produced by aminolysis of H2SiCl2 with MeNH2 under conditions where x 18-20 (Mn - 1150). 

Aminolysis of the corresponding halides is the preferred method for the synthesis of dialkylamino derivatives of boron,1 silicon,2 germanium,3 phosphorus,4 arsenic,5 and sulfur.6 (Dialkylamino) chlorosilanes are prepared stepwise by the reaction of silicon tetrachloride with dialkylamines. This method may be utilized equally well for the conversion of alkyl- or aryl-substituted halides [e.g., (CH3) SiCl4. ] or of oxide and sulfide halides (e.g., POCl3 or PSC13) to the corresponding dialkylamino compounds. 

Ester aminolysis, in general, occurs under harsh conditions that require high temperatures and extended reaction periods or the use of strong alkali metal catalysts. An efficient solid state synthesis of amides from nonenolizable esters and amines using KO Bu under the action of microwave irradiation [97] has been described. The reaction of esters with octylamine was extensively studied to identify possible micro-wave effects [98] (Eq. (45) and Tab. 3.20). 

Ring-opening with heteroatomic nucleophiles is certainly among the most thoroughly studied behavior of epoxides, and this reaction continues to be a versatile workhorse of synthetic utility. This is exemplified in the recent literature by the examples of the p-cyclodextrin-catalyzed aminolysis of simple epoxides by aniline derivatives (i.e., 53 - 54) <00SL339> and the synthesis of oxa-azacrown ethers through the treatment of Ws-epoxides 55 with diamines 56. Yields in the latter synthesis are sensitive to the size of the macrocycle and substitution on the bis-epoxide <00TL1019>. 

Although the synthesis of 3-isoxazolols from P-keto esters and hydroxylamine suffers from the formation of 5-isoxazolones as major products, treatment of acyl chlorides with Meldrum s acid 4 followed by aminolysis gave rise to p-keto hydroxamic acids 6 that cyclised to the corresponding 5-substituted 3-isoxazolols 7 without formation of any byproduct <00JOC1003>. Cyclisation of N-substituted salicylhydroxamic acids 9 under... 

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