Lactams imines, cyclic, with

Additions of aryl- or alkyllithium reagents to N-silylated formamides 508 give the imines 509 in 55-80% yield [90, 91] some of these imines can subsequently be converted into the corresponding //-lactams by reaction with enolates of alkyl butyrates [92]. Conversion of N-silylated butyrolactam 388 into cyclic Schiff bases such as 390, by reaction with methyl- or butyllithium, via O-silylated butyrolactam 389, is discussed in Section 4.8 (Scheme 5.28). 

Bode and co-workers have extended the synthetic ntility of homoenolates to the formation of enantiomerically enriched IV-protected y-butyrolactams 169 from saccharin-derived cyclic sulfonylimines 167. While racemic products have been prepared from a range of P-alkyl and P-aryl substitnted enals and substitnted imi-nes, only a single example of an asymmetric variant has been shown, affording the lactam prodnct 169 with good levels of enantioselectivity and diastereoselectivity (Scheme 12.36) [71], As noted in the racemic series (see Section 12.2.2), two mechanisms have been proposed for this type of transformation, either by addition of a homoenolate to the imine or via an ene-type mechanism. 

Bromine/acetic acid Lactams from cyclic imines with bromination... 

Induction of asymmetry into the /J-lactam-forming process was inefficient with acyclic imines having chiral groups on the nitrogen [19] but efficient with rigid, cyclic chiral imines (Table 3). One of these was used as a chiral template to produce highly functionalized quaternary systems (Eq. 5) [34]. 

Chromium aminocarbenes [39] are readily available from the reaction of K2Cr(CO)5 with iminium chlorides [40] or amides and trimethylsilyl chloride [41]. Those from formamides (H on carbene carbon) readily underwent photoreaction with a variety of imines to produce /J-lactams, while those having R-groups (e.g.,Me) on the carbene carbon produced little or no /J-lactam products [13]. The dibenzylaminocarbene complex underwent reaction with high diastereoselectivity (Table 4). As previously observed, cyclic, optically active imines produced /J-lactams with high enantioselectivity, while acyclic, optically active imines induced little asymmetry. An intramolecular version produced an unusual anti-Bredt lactam rather than the expected /J-lactam (Eq. 8) [44]. 

Dipolar cycloaddition of azides with olefins provides a convenient access to triazolines, cyclic imines, and aziridines and hence is a valuable technique in heterocyclic synthesis. For instance, tricyclic -lactams 273 - 276 have been synthesized using the intramolecular azide-olefin cycloaddition (lAOC) methodology (Scheme 30) [71]. 

The lactam formation from the oxidation of cyclic amines (353, for example) probably proceeds via intermediate 364. The nitrogen-iodine bond dissociates to give imine 365, which reacts again with a second equivalent of iodosobenzene to give another intermediate 366. Finally, 366 on reductive... 

Gonzalez et al. [105] have further investigated the diastereoselective [2+2] cycloaddition reaction of unsymmetrical cyclic ketenes with imines for the synthesis of a variety of spiro-(3-lactams (Scheme 34). 

Spiro-p-lactams have been synthesized via [2+2] cycloaddition of cyclic ketenes with imines [100]. Opposite trans or cis diastereoselectivity was obtained using different imines with electron-donating or electron-withdrawing (R1) substituents at the N-atom, (Scheme 33). 

The cyclocarbonylation of a,/ -unsaturated imines 54 also gave five-membered lactams 55 or 56 with or without 57 depending on the substitution patterns of the starting materials (Eq. 26) [40]. Such a useful [4+1] cycloaddition was applied to a cyclic imine 58 conjugated with a cyclohexenyl group to afford an interesting aza-tricycle 59 in 65% yield (Eq. 27). In the presence of an alkene such as ethylene, norbornene, and vinyltrimethylsilane, a similar cyclocarbonylation of a,/l-unsaturated imines 60 gave rise to a-alkylated /5,y-unsaturated lactam 61 in various yields (Eq. 28) [41,42]. Several plausible mechanisms are proposed for the formation of 61, but the elucidation of the entire mechanism calls for further work. 

An efficient and operationally simple synthesis of tetrahydrofuran-derived spiro-P-lactams 15 and 16 using the Staudinger reaction of unsymmetrical cyclic ketones has been described <02JCS(P1)571 02SL69>. Similarly, spiro-P-lactams 17 were synthesized via Staudinger reaction of imines derived from 7-oxanorbomenone with alkoxyacetyl chlorides <02TL6405>. 

The chemistry of iron vinylidene complexes is dominated by the electrophilicity of the carbon atom adjacent to the iron organometallic unit. While addition of water leads to an acyl complex (i.e., the reverse of the dehydration shown in equation 10), addition of an alcohol leads to a vinyl ether complex. Similarly, other iron vinyl complexes can be prepared by the addition of thiolate, hydride, or an organocuprate (Scheme 33). " The nucleophilic addition of imines gave enaminoiron intermediates that could be further elaborated into cyclic aminocarbenes. This methodology has been used to provide access to /3-lactams and ultimately penicillin analogs, and good diastereoselectivities were observed (6 1-15 1) (Scheme 34). 04 Iso, vinylidene complexes are intermediates in cyclizations of alkynyl irons with substituted ketenes, acid chlorides, and related electrophiles an example is shown (equation 11). These cyclizations led to the formation of a series of isolable and characterizable cyclic vinyl iron complexes. 

The incorporation of the second equivalent of imine can be prevented in these reactions if a vinylidene complex, such as (31), is employed which is 3optimized conditions indicated, the reaction of (31) with A -meAyl benzaldehyde imine will provide the cycloadduct (32) in quite good yield. A rather unc odox oxidation procedure (BU4NNO2, 6.5 kbar 1 bar = 10 Pa) is required for the effective cleavage of the cationic complex (32) to the 3-lactam (33). This reaction was shown to involve a two-step process, since the salt (37) could be isolated in 80% yield by column chromatography if the reaction was stO[q)ed shortly after the reaction mixture was Ivought to room tenq>erature. The reaction with the cyclic thioimidate (34) indicates that vinylidene complexes can be useful in the synthesis of functionalized 3-lactams in good yields with high stereoselectivity. 

If other active groups are y or 8 to the nitro group, hydrogenation can result in the formation of cyclic products. Esters condense with the product amine to give lactams. Ketones or aldehydes produce imines that can be hydrogenated further to an amine. The hydrogenation of y- or 5-nitro carboxylic acids under mild conditions, however, gives the amino acids in excellent yields.58.59 The... 

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