Piperidine: enamines from

Enamines are not easily formed from 17-ketones. A pyrrolidine enam-ine is obtained by acid catalysis accompanied by azeotropic removal of water whereas the morpholine and piperidine enamines do not form under these forcing conditions. 

Schaeffer and Jain (19) have also reported the synthesis of optically active dehydrocycloheximide (24) by using optically active piperidine enamine derived from (+)-/ra 5-2,4-dimethylcyclohexanone. 

The basicity of the enamine has an overriding influence on the yield of product. Good yields are obtained from the pyrrolidine enamines, poor yields from the piperidine enamines, and the morpholine enamines fail to... 

The formation of bicyclic imines (263,264) from piperidine enamines and y-bromopropyl amines may appear at first sight to be a simple extension of the reactions of enamines with alkyl halides. However, evidence has been found that the products are formed by an initial enamine exchange, followed by an intramolecular enamine alkylation. Thus y-bromodiethylamino-propane does not react with piperidinocyclohexene under conditions suitable for the corresponding primary amine. Furthermore, the enamine of cyclopentanone, but not that of cyclohexanone, requires a secondary rather than primary y-bromopropylamine, presumably because of the less favorable imine to enamine conversion in this instance. 

The reactions of dichlorocarbene with morpholine and piperidine enamines derived from cyclopentanone and cyclohexanone have been reported to lead to ring expanded and a-chloromethylene ketone products (355,356). Similarly a-chloro-a, -unsaturated aldehydes were obtained from aldehyde derived enamines (357). Synthesis of aminocyclopropanes (353,359) could be realized by the addition of diphenyldiazomethane (360) and the methylene iodide-zinc reagent to enamines (367). 

Treated with ZnBr2 followed by enamines, phenyl thioethers 829 derived from aryl aldehydes are converted to (l-(phenylthio)alkyl ketones or aldehydes 830 in moderate to good yields (Equation 19). Enamines used in these syntheses are (1) morpholine enamine derived from diethyl ketone, (2) diethylamine enamine of propiophenone, (3) piperidine enamine derived from isovaleraldehyde, and (4) pyrrolidine enamine of cyclohexanone <2000H(53)331>. 

From a preparative point of view, the acylation of ketones via enamines is of particular interest. In comparison with pyrrolidine and piperidine enamines, the less reactive morpholine enamines give better yields, as found by Hiinig et al.2iZ j8-Diketones are the products of acylation with an acyl halide followed by acid hydrolysis, whereas with ethyl chloroformate, /J-ketoesters are obtained.212 Hiinig and his collaborators242-247 have used the acylation of 1-morpholino-l-cyclopentene and 1-morpholino-l-cyclohexene to lengthen the chains of acids by five and six carbon atoms, respectively. The reaction may... 

As shown in Scheme 15, cyclohexenone 117 was prepared from commercially available cyclohexanedione mono ethylene ketal 115 through a-phenylselenation followed by oxidation and selenoxide elimination. Compound 117 was treated with TBSOTf and the piperidine enamine of isobutyraldehyde to produce the conjugate addition product 118. Butenyl magnesium bromide was then added to the... 

V. Enamines. Reactions of the enamines from condensation of piperidine or morpholine with an aldehyde with p-benzoquinone gives 2,3-dihydro-5-hydroxy-2-piperidino(or morpholino)benzofurans (146),... 

Compound A is clearly the enamine from the aldehyde and piperidine and its reaction with unsaturated ketone would be expected to lead to conjugate addition (Chapter 29). Evidently, in [Pg.402]

In the recent literature numerous reactions in which enamines are used for synthesis of enantiomerically pure compounds (EPC) can be found . Optically active enamines from substituted pyrrolidine (e.g. 27, R = CH20Me, CH20SiMe3, or 28, R = Me, CH20Me), or from piperidine , such as 29, (S)-phenylethylamine (30) " and stanna-N,0-heterocyclic amine (31) , are used. The cyclohexanenamines seem to be the preferred test compounds for this kind of reaction, whereas enamines of open-chain ketones and aldehydes have been investigated only rarely . Enamines from carbonyl compounds and secondary amines are obtained with azeotropic removal of water or by die Weingarten method with TiC. A titanium chloride-catalysed variation in which perfluorinated alkyl groups can be introduced is also known " . 

The E-isomer is generally more stable than the Z-isomer due to diminished steric hindrance, so it is assumed that the E-isomer is the major product (shown for 83). Water, a reaction by-product, may be removed to give a better yield of product and azeotropic distillation is used as well as molecular sieves (see Section 18.6.3). Enamines are structurally related to an end (HO—C=C) in that the heteroatom is directly attached to the alkene unit. Enamines are often isolable compounds, whereas enols tautomerize spontaneously to the carbonyl form. Note that when imine 76 is formed from iminium salt 80, there is no enamine product. In fact, the C-H in 80 is much less acidic that the N-H unit, so the product is the imine rather than the enamine. It is noted that there is an equilibrium between an imine and an enamine, known as imine-enamine tautomerism, but it will be ignored in this book. Many different secondary amines can be used in this reaction, including cyclic amines (see Chapter 26, Section 26.4.1) such as pyrrolidine (90), piperidine (91), and morpholine (92). It is important to note that it is generally easier to form an enamine from a ketone than from an aldehyde. 

Also, [3+2] cycloadducts are obtained in the reaction of phenyl azide to piperidine enamines derived from acetophenone and phenylacetaldehyde, respectively . Enamides react similarly with aryl azides to give l-aryl-5-amido-l,2,3-triazolines. ... 

Stigmasterol from soy bean extracts can be selectively ozonolyzed on the side-chain double bond. The 20-formyl group formed is converted to the enamine with piperidine. This can be oxidized to progesterone. 

Reduced pyrido[4,3-c]pyridazines are obtained from piperidine derivatives such as (371) with hydra2dne e.g. 79AF1835), whilst another related synthesis coupled the enamine (372) with phenacyl bromide semicarbazone to give (373) (74JAP(K)7488897). 

With strong acids, enamines give iminium salts, from which the parent enamine is regenerated by treatment with piperidine or triethylamine. Enamines are usually cleaved by warming in acetic acid-sodium acetate solution. The more labile enamines of saturated 3-ketones are hydrolyzed simply by heating in 95% ethanol. ... 

Recently Stamhuis et al. (33) have determined the base strengths of morpholine, piperidine, and pyrrolidine enamines of isobutyraldehyde in aqueous solutions by kinetic, potentiometric, and spectroscopic methods at 25° and found that these enamines are 200-1000 times weaker bases than the secondary amines from which they are formed and 30-200 times less basic than the corresponding saturated tertiary enamines. The baseweakening effect has been attributed to the electron-withdrawing inductive effect of the double bond and the overlap of the electron pair on the nitrogen atom with the tt electrons of the double bond. It was pointed out that the kinetic protonation in the hydrolysis of these enamines occurs at the nitrogen atom, whereas the protonation under thermodynamic control takes place at the -carbon atom, which is, however, dependent upon the pH of the solution (84,85). The measurement of base strengths of enamines in chloroform solution show that they are 10-30 times weaker bases than the secondary amines from which they are derived (4,86). 

Experiments designed to clarify the situation were carried out by Wittig and Mayer (40). It was shown that changing the molar ratio of amine (diethylamine, di- -butylamine, or diisobutylamine) to -butyraldehyde from 1 1 to 2 1 did not affect the yield of enamine (53- 64%, based on the aldehyde). Contrariwise, changing the ratio of amine (morpholine, piperidine, or pyrrolidine) to n-butyraldehyde from 1 1 to 2 1 boosted the yields from 52-57 % to 80-85 %. The authors interpret these data as indicating that the cyclic amines form aminals with n-butyraldehyde, while the open-chain do not. Infrared evidence is stated as having shown that the aminal originates not from attack of excess amine on the enamine, which is stable under the conditions of the reaction, but from the N-hemiacetal (17). 

To return to a more historical development the mercuric acetate oxidation of substituted piperidines (77) should be discussed next. This study established that the normal order of hydrogen removal from the aW-carbon is tertiary —C—H > secondary —C—H > primary —C—H, an observation mentioned earlier in this section. The effect of substitution variations in the piperidine series can be summarized as follow s l-mcthyl-2,6-dialkyl and 1-methyl-2,2,6-trialkyl piperidines, as model systems, are oxidized to the corresponding enamines the 1,2-dialkyl and l-methyl-2,5-dialkyl piperidines are oxidized preferentially at the tertiary a-carbon the 1-methyl-2,3-dialkyl piperidines gave not only the enamines formed by oxidation at the tertiary a-carbon but also hydroxylated enamines as found for 1-methyl-decahydroquinoline (48) (62) l-methyl-2,2,6,6-tctraalkyl piperidines and piperidine are resistant to oxidation by aqueous mercuric acetate and... 

Hydrolysis of an enamine yields a carbonyl compound and a secondary amine. Only a few rate constants are mentioned in the literature. The rate of hydrolysis of l-(jS-styryl)piperidine and l-(l-hexenyl)piperidine have been determined in 95% ethanol at 20°C 13). The values for the first-order rate constants are 4 x 10 sec and approximately 10 sec , respectively. Apart from steric effects the difference in rate may be interpreted in terms of resonance stabilization by the phenyl group on the vinyl amine structure, thus lowering the nucleophilic reactivity of the /3-carbon atom of that enamine. 

The enamine (191) from isobutyraldehyde on treatment with p-nitrophenyl-diazonium chloride, on the other hand, gave the p-nitrophenylhydrazone of acetone (192) and presumably N-formyl piperidine, although the latter was not isolated. 

Heterocyclic enamines A -pyrroline and A -piperideine are the precursors of compounds containing the pyrrolidine or piperidine rings in the molecule. Such compounds and their N-methylated analogs are believed to originate from arginine and lysine (291) by metabolic conversion. Under cellular conditions the proper reaction with an active methylene compound proceeds via an aldehyde ammonia, which is in equilibrium with other possible tautomeric forms. It is necessary to admit the involvement of the corresponding a-ketoacid (12,292) instead of an enamine. The a-ketoacid constitutes an intermediate state in the degradation of an amino acid to an aldehyde. a-Ketoacids or suitably substituted aromatic compounds may function as components in active methylene reactions (Scheme 17). 

Enamines formed in this way may be distilled or used in situ. The ease of formation of the enamine depends on the structure of the secondary amine as well as the structure of the ketone. Thus pyrrolidine reacts faster than morpholine or piperidine, as expected from a rate-controlling transition state with imonium character. Six-membered ring ketones without a substituents form pyrrolidine enamines even at room temperature in methanol (20), and morpholine enamines are generated in cold acetic acid (21), but a-alkylcyclohexanones, cycloheptanone, and linear ketones react less readily. In such examples acid catalysis with p-toluenesulfonic acid or... 

In the generation of 3,5-dibenzylpyridine from piperidine and benzalde-hyde, the formation of enamine and dienamine intermediates must also be involved (191-193). 

The reactions of enamines with aldehydes (329,350) are noteworthy in that they provide a route to the monobenzylidene derivatives of five- to seven-membered eyclic ketones as well as a method for the formation of other a, 9-unsaturated carbonyl compounds, in fair to good yields. The condensation of benzaldehyde with enamines is also involved in the formation of 3,5-dibenzylpyridine from piperidine and benzaldehyde (191-193). 

---