Carbonylation reaction pyrazines

The presence of a 2-substitutent in 3-phenylazirines (17, R —H in Scheme 21) modifies the mode of reaction with molybdenum carbonyl.47 In contrast to pyrazine formation for (17, R =H see Section V,C,2), the alkenyl azirine (18, Scheme 22) is transformed in excellent yield into 2-phenyl-5-carboxy-methylpyrrole. This product probably arises by intramolecular cyclization within an intermediate dienylnitrene intermediate, and related reactions have been devised to synthesize isoxazoles (see Section IV,E,2) and pyrazoles (see Section IV,D,1).47 The molybdenum carbonyl-promoted formation of 2,5-disubstituted pyrroles47 has analogy in uncatalyzed thermal, but not photochemical decomposition of 3-phenyl-2//-azirine 2-acrylate.49... 

The A -l,2,3,5-thiatriazoline A-oxides (20) are stable at room temperature but are easily hydrolyzed <85TL6155>. Sulfinylamines are known to react with carbonyl compounds and so with R = CHjCOPh, R = Me, an intramolecular trapping of the carbonyl group leading to a 6-membered pyrazine might have been expected. However, even in this case, the 1,2,3,5-thiatriazole S-oxide was formed due to preferential reaction with the highly nucleophilic nitrogen over cycloaddition <86H(24)1193>. 

There are very few reactions of real synthetic significance which proceed via condensation of two 1,3-electrophile-nucleophile species. Probably the most important of this latter type of reaction is the synthesis of pyrazines by self-condensation of an a-acylamino compound to the dihydropyrazine followed by aromatization (equation 132). The a-acylamino compounds, which dimerize spontaneously, are normally generated in situ, for example by treatment of a- hydroxy carbonyl compounds with ammonium acetate or by reduction of a-azido, -nitro or -oximino carbonyl compounds. Cyclodimerization of a-amino acids gives 2,5-dioxopiperazines (equation 133), many derivatives of which occur as natural products. Two further reactions which illustrate the 1,3-electrophile-nucleophile approach are outlined in equations (134) and (135), but su i processes are of little general utility. 

Pyridine and pyrazine can also replace up to three of the carbonyl groups in Group VI metal carbonyls to form compounds of type Cr(CO)3py3. The reaction of 4,5,6-triphenyl-l,2,3-triazine with nonacarbonyldiiron afforded 3,4,5-triphenylpyrazole in 80% yield, probably through the initial n-donor complexation of the triazine to iron carbonyl (87BCJ3062). 

Some reviews (41, 52-54) are available. The positive aspects are found in the production of desirable flavors and aromas. Fujimaki and Kurata ( 55) listed aldehydes and pyrazines, volatile compounds produced by heating amino acids with carbonyl compounds, isovaleraldehyde produced by reaction of leucine with carbonyl compounds (aldehydes,... 

Several mechanisms have been reported for pyrazine formation by Maillard reactions (21,52,53). The carbon skeletons of pyrazines come from a-dicarbonyl (Strecker) compounds which can react with ammonia to produce ot-amino ketones as described by Flament, et al. (54) which condense by dehydration and oxidize to pyrazines (Figure 6), or the dicarbonyl compounds can initiate Strecker degradation of amino acids to form ot-amino ketones which are hydrolyzed to carbonyl amines, condensed and are oxidized to substituted... 

Pyrazines are formed from transamination reactions, in addition to carbon dioxide and formaldehyde. A requirement is that the carbonyl compound contains a dione and the amino group is alpha to the carboxyl group (16). If the hydrogen on the ct-carbon oI the amino acid is substituted, a ketone is produced. Newell (17) initially proposed a pyrazine formation mechanism between sugar and amino acid precursors. (See Figure 3). The Schiff base cation is formed by addition of the amino acid to the anomeric portion of the aldo-hexose, with subsequent losses of vater and a hydroxyl ion. Decarboxylation forms an imine which can hydrolyze to an aldehyde and a dienamine. Enolization yields a ketoamine, vhich dissociates to amino acetone and glyceraldehyde. 2,5-Dimethylpyrazine is formed by the condensation of the tvo molecules of amino acetone. 

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