Carbonyl compounds electrophilic amination

Diaziridines (151) are formed from a carbonyl compound, an amine and an electrophilic aminating reagent (B-67MI50800, 79AHC(24)63>. 

Carbonyl Compound or Amine Yieldb eo[%] Electrophile Cleavage3 [%] (Config.) Lit. 

In origin, the Mannich reaction is a three-component reaction between an eno-lizable CH-acidic carbonyl compound, an amine, and an aldehyde producing / -aminocarbonyl compounds. Such direct Mannich reactions can encompass severe selectivity problems since both the aldehyde and the CH-acidic substrate can often act as either nucleophile or electrophile. Aldol addition and condensation reactions can be additional competing processes. Therefore preformed electrophiles (imines, iminium salts, hydrazones) or nucleophiles (enolates, enamines, enol ethers), or both, are often used, which allows the assignment of a specific role to each car-... 

The simplest synthesis for a heterocycle emerges when we remove the heteroatom and see what electrophile we need. We shall use pyrroles as examples. The nitrogen forms an enamine on each side of the ring and we know that enamines are made from carbonyl compounds and amines. 

Carbonyl Compound or Amine Yield ee[%] Electrophile Cleavage8 [%] (Con fig.) Lit. 

The Mannich condensation has traditionally been carried out in the presence of water as a three-component condensation involving a carbonyl compound (or related carbon nucleophile), formaldehyde, and a primary or secondary amine. The initial step is a condensation between the latter two reactants to form a mono- or dialkyl(methylene)ammonium ion which subsequently serves as the electrophilic partner in the reaction. With unsymmetrical ketones aminomethylation generally occurs at both positions to give mixtures of isomeric 3-amino ketones. The ratio of the isomers depends strongly on the structure of the ketone, and the more highly branched (3-amino ketone usually predominates. 

Iminium ions are intermediates in a group of reactions that form ,( -unsaturated compounds having structures corresponding to those formed by mixed aldol addition followed by dehydration. These reactions are catalyzed by amines or buffer systems containing an amine and an acid and are referred to as Knoevenagel condensations,2U The reactive electrophile is probably the protonated form of the imine, since it is a more reactive electrophile than the corresponding carbonyl compound.212... 

A study of the reactions of butadiene, isoprene, or allene coordinated to nickel in a metallacycle, with carbonylic compounds, has been reported by Baker (example 11, Table IV). In the presence of phosphines, these metallacycles adopt a cr-allyl structure on one end and a ir-allyl structure on the other, as mentioned in Section II,A,1. The former is mainly attacked by aldehydes or electrophilic reagents in general, the latter by nucleophiles (C—H acids, see Table I, or amines, see Table IX). 

Electrophilic site for Schiff base formation with reactive amines such as a-amino acids. Corresponding transaminated species, pyridoxamine, reacts with electrophilic carbonyl compounds... 

The Mannich reaction is best discussed via an example. A mixture of dimethylamine, formaldehyde and acetone under mild acidic conditions gives N,N-dimethyl-4-aminobutan-2-one. This is a two-stage process, beginning with the formation of an iminium cation from the amine and the more reactive of the two carbonyl compounds, in this case the aldehyde. This iminium cation then acts as the electrophile for addition of the nucleophile acetone. Now it would be nice if we could use the enolate anion as the nucleophile, as in the other reactions we have looked at, but under the mild acidic conditions we cannot have an anion, and the nucleophile must be portrayed as the enol tautomer of acetone. The addition is then unspectacular, and, after loss of a proton from the carbonyl, we are left with the product. 

Although imines are less electrophilic than carbonyl compounds, they are also more readily activated by acids or hydrogen bonding. For this reason, Mannich reactions are often faster than the corresponding aldol reactions. It is not even necessary to use preformed imines. In a typical three-component Mannich reaction, the acceptor imine is generated from an aromatic or otherwise protected primary amine. 

By a DTBB-catalyzed (5%) lithiation of chlorinated unsaturated amines 191 in the presence of a carbonyl compound as electrophile, the final hydrolysis afforded 192 as a Z/E mixture of diastereomers (Scheme 66). In this process, the corresponding sp -hybridized functionalized organolithium intermediate is probably involved. 

This methodology is also an important and potentially valuable method for C—N bond formation using the amination of carbon nucleophiles with electrophilic nitrogen transfer reagents (Scheme 1) Amination of ordinary carbanions and a-carbanion derived from carbonyl compounds and nitriles provides an important method for the synthesis of amines and a-amino carbonyl compounds and nitriles", respectively. For this purpose, a number of electrophilic amination reagents, which are synthetic equivalents of the R2N+ synthon, have been developed and the synthetic potential of electrophilic amination of carbon nucleophiles has been studied in detail . ... 

This chapter on electrophilic amination using O-substituted hydroxylamines 1-5 and oximes 7 is focused on the various methods that have been reported for the amination of carbon nucleophiles. Synthetic aspects and applications of the methods for C—N bond formation are accompanied by a brief discussion of the reaction mechanisms. The preparation of O-substituted hydroxylamines and oximes has not been considered in detail. This review covers the literature up to August 2007 and is partly based on reviews on the electrophilic amination of carbanions and a-amination of carbonyl compounds. ... 

There are a few reports on the use of oximes as electrophilic amination reagents. Since 1984, ketone O-sulfonyloxknes have found applicability as amino transfer reagents to car-banions. In the reaction of organometaUic compounds with oximes, carbanions attack the carbonyl carbon of the oxime, giving Af-substituted hydroxylamines as addition products (Scheme 53, path a). However, a number of scattered reports have been also published on the formation of aziridines by a-deprotonation, followed by addition (path b) or formation of azirines by a-deprotonation before addition (path c). Addition of carbanions to azirines also yields aziridines, which are hydrolyzed to a-aminoalcohols. 

Assuming that the above rationale for tertiary amine nitrosation was valid, we predicted 3) that the reaction of secondary amines with nitrite at milder pH s should be catalyzed by electrophilic carbonyl compounds, since secondary amines are known to form immonium ions on admixture with appropriate aldehydes and ketones. The prediction turned out to be true. Formaldehyde was shown to promote nitrosamine formation from a... 

Another possible mechanism for this reaction was suggested by Dr. G.R. Krow (private communication), this one involving a a bona fide a-amino nitrite ester as an intermediate. If the qumone monoxime tautomer of the nitrosophenol were reacting as an electrophilic carbonyl compound with the amine according to Fig. 3, the resulting immonium ion, VII, could attack nitrite to yield the nitrosamine via intermediate Ih with regeneration of the nitrosophenol. This proposal is summarized in Fig. 9. 

It is further recommended that amine-nitrite mixtures be kept away from electrophilic carbonyl compounds and gem-di-halides capable of supporting immonium ion formation, for example in the preservation of amine-rich fish products with formaldehyde ( ) or in the use of methylene chloride as an aerosol propellant (13). It also seems advisable to avoid storing treflan and related herbicides in the presence of... 

Alcohols, amines, and thiols add readily to the electrophilic carbon of the carbonyl group to form hemiacetals, carbinolamines, hemiketals, and hemimercaptals. An example is the formation of ring structures of sugars (Eq. 4-1). Water can also add to carbonyl groups and most aliphatic carbonyl compounds... 

More reactive electrophiles, such as benzyl and allyl halides, as well as a- or 3-halo-carbonyl compounds, react smoothly with amines, often even at room temperature. Support-bound chloro- and bromoacetamides, for instance, react cleanly with a wide range of aliphatic and aromatic amines to yield glycine derivatives (Entries 1-4, Table 10.2 [22-32]). This reaction is usually conducted in DMSO at room temperature (2-12 h), but for sensitive amines DMF or NMP might offer milder reaction conditions (Entry 3, Table 10.2). Higher yields can often be obtained by increasing the reaction temperature and the concentration of the amine. 

A variety of macrocyclic complexes which have adjacent nitrogen atoms (cyclic hydrazines, hydrazones or diazines) are formed by condensations of hydrazine, substituted hydrazines or hydrazones with carbonyl compounds. The reactions parallel in diversity those of amines, but are often more facile since the reacting NH2 groups is generally not coordinated and the electrophile is thus not in competition with the metal ion. The resulting macrocycles may be capable of coordination isomerism, since either of the adjacent nitrogen atoms can act as donor atom. 

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