Aldehydes, addition derivatives ammonia reaction

The formation of pyridine derivatives from a, P-unsaturated aldehydes and ammonia involves formation of three bonds during the ring synthesis. For example, with an a, P-unsaturated aldehyde, both 2,5-substituted as well as 3,4-substituted pyridines can be obtained, depending on whether a 1,2- (eq. 17) or 1,4-addition (eq. 18) occurs with ammonia. Reactions are performed in the vapor phase with catalysts. 

A series of tetrasubstituted thiazole derivatives 28 has been prepared via a multi-component tandem protocol <07T10054>. Reaction of bis(aroylmethyl)sulfides 23 with aryl aldehydes and ammonium acetate in 1 2 1 ratio under solvent-free microwave irradiation affords 28 in good yields. This reaction presumably starts with Knoevenagel condensation of sulfide with 2 equiv. of aryl aldehydes to give 24. Michael addition with ammonia and concomitant cyclocondensation lead to 26. Base-catalyzed ring opening of 26 to 27 and ring... 

Other reactions of carbohydrates include those of alcohols, carboxylic acids, and their derivatives. Alkylation of carbohydrate hydroxyl groups leads to ethers. Acylation of their hydroxyl groups produces esters. Alkylation and acylation reactions are sometimes used to protect carbohydrate hydroxyl groups from reaction while a transformation occurs elsewhere. Hydrolysis reactions are involved in converting ester and lactone derivatives of carbohydrates back to their polyhydroxy form. Enolization of aldehydes and ketones leads to epimerization and interconversion of aldoses and ketoses. Addition reactions of aldehydes and ketones are useful, too, such as the addition of ammonia derivatives in osazone formation, and of cyanide in the Kiliani-Fischer synthesis. Hydrolysis of nitriles from the Kiliani-Fischer synthesis leads to carboxylic acids. 

Our own group is also involved in the development of domino multicomponent reactions for the synthesis of heterocycles of both pharmacologic and synthetic interest [156]. In particular, we recently reported a totally regioselective and metal-free Michael addition-initiated three-component substrate directed route to polysubstituted pyridines from 1,3-dicarbonyls. Thus, the direct condensation of 1,3-diketones, (3-ketoesters, or p-ketoamides with a,p-unsaturated aldehydes or ketones with a synthetic equivalent of ammonia, under heterogeneous catalysis by 4 A molecular sieves, provided the desired heterocycles after in situ oxidation (Scheme 56) [157]. A mechanistic study demonstrated that the first step of the sequence was a molecular sieves-promoted Michael addition between the 1,3-dicarbonyl and the cx,p-unsaturated carbonyl compound. The corresponding 1,5-dicarbonyl adduct then reacts with the ammonia source leading to a DHP derivative, which is spontaneously converted to the aromatized product. 

Reaction of various aldehydes with hydrogen sulfide leads to substituted thiophenes, dihydrothiophenes, dithiolanes and trithiolane, as well as to six-membered ring thiopyran derivatives and dithiins. Ledl (33) obtained 2,4-dimethylthiophene (1, R Me) as a product of the reaction of propionaldehyde with hydrogen sulfide in the presence of ammonia. Sultan (29) reported the formation of 2,4-diethylthiophene (1, R - Et), 2,4-dibutyl-thiophene (1, R - Bu), and their dehydro derivatives from the reaction of ammonium sulfide with butyraldehyde and caproaldehyde (hexanal), respectively. The mechanism suggested for their formation is depicted in Scheme 1. Space limitations do not allow us to discuss the mechanism here in detail (for additional information, see ref. 29). 

However, these compounds are generally unstable. Most imines with a hydrogen on the nitrogen spontaneously polymerize.143 Stable hemiaminals can be prepared from polychlorinated and polyfluorinated aldehydes and ketones, and diaryl ketones do give stable imines Ar2C=NH.144 Aside from these, when stable compounds are prepared in this reaction, they are the result of combinations and condensations of one or more molecules of 12 and/or 13 with each other or with additional molecules of ammonia or carbonyl compound. The most important example of such a product is hexamethylenetetramine145 (11), prepared from ammonia and formaldehyde.146 Aromatic aldehydes give hydrobenzamides ArCH(N=CHAr)2 derived from three molecules of aldehyde and two of ammonia.147... 

Perhaps the most useful part of the reported synthesis is the facile preparation of (—)-pyrimidoblamic acid (12 Scheme 3). A key to this synthesis is the preparation of the fully substituted pyrimidine 8. This was done by a one-pot inverse electron demand Diels-Alder reaction between the symmetrical triazine 7 and prop-1-ene-1,1-diamine hydrochloride, followed by loss of ammonia, tautomerization, and loss of ethyl cyanoformate through a retro-Diels-Alder reaction. Selective low-temperature reduction of the more electrophilic C2 ester using sodium borohydride afforded 9, the aldehyde derivative of which was condensed with 7V -Boc-protected (3-aminoalaninamide to give the imine 10. Addition of the optically active A-acyloxazolidinone as its stannous Z-enolate provided almost exclusively the desired anti-addition product 11, which was converted into (—)-pyrimidoblamic acid (12). Importantly, this synthesis confirmed Umezawa s assignment of absolute configuration at the benzylic center. 

The addition of nucleophiles to the carbonyl group may be catalysed by acids obtained by the protonation of the carbonyl oxygen (equilibrium 26). Acid catalysis can also occur during the elimination step which follows the addition step. For example, the reactions of aldehydes with amines (and of all the ammonia derivatives) to form imines are generally assumed to occur in two steps the first is the addition of nucleophile to yield a gem amino alcohol, the second includes the elimination of water from the tetrahedral adduct 138 (see Scheme 45). This elimination is usually thought to be catalysed by electrophiles171,212. 

Reactions.—The general properties and reactions of the aromatic aldehydes and ketones are like those of their aliphatic relatives. The aldehydes are easily oxidized to acids and reduce ammoniacal silver nitrate solution. Both aldehydes and ketones are easily reduced to alcohols. The aldehydes form addition products with sodium bisulphite and with hydrogen cyanide. With ammonia, however, they do not form addition products but react with the elimination of wafer and the formation of a condensation product which is a derivative of two molecules of ammonia. 

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