Lactams, unsaturated

CO) aromatic O, quinones, lactones, lactams, unsaturated cyclic ketones, allyl aldehydes... 

Allylamines are not easily cleaved with Pd catalysts, but the carbonylation of the allylic amine 395 proceeds at 110 C to give the /3,7-unsaturated amide 396 by using dppp as a ligand[252], Dccarboxylation-carbonylation of allyl diethyl-carbamate under severe conditions (100 C, 80 atm) affords /3,7-unsaturated amides[2531. The 3-vinylaziridine 397 is converted into the a-vinyl-J-lactam 398 under mild conditions[254]. 

A potential advantage of the Schmidt reaction is illustrated by the conversion of progesterone to the 17j5-acetylamino derivative, without affecting the A-ring. A 35 % yield is obtained when 1 mole of sodium azide in polyphos-phoric acid is used. With excess azide the A-ring is transformed into an a,jS-unsaturated lactam ... 

Lukes studied the reaction of N-methyl lactams with Grignard reagents. With the five- (39-42) and six-membered (43-47) rings, 2,2-dialkylated bases (16, = 1,2) are formed as by-products in addition to the l-methyl-2-alkyl pyrrolines (15, = 1) or l-methyl-2-alkyl piperideines (15, =2). Aromatic Grignard reagents afford only the unsaturated bases, probably because of steric factors (48,49). Separation of enamines and 2,2-dialkylated amines from each other can be easily achieved since the perchlorates of the enamines and the picrates of 2,2-dialkylated bases crystallize readily. Therefore enamines can be isolated as crystalline perchlorates and the 2,2-dialkylated bases as crystalline picrates. Some authors who repeated the reactions isolated only pyrrolines (50,57) or, by contrast, 2,2-dialkylated bases (52). This can be explained by use of unsuitable isolation techniques by the authors. 

The hydroxamic acid function in most alicyclic and aromatic compounds is stable to hot dilute acid or alkali, and derivatives cannot undergo normal base-catalyzed Lessen rearrangement. Di Maio and Tardella," however, have shown that some alicyclic hydroxamic acids when treated with polyphosphoric acid (PPA) at 176°-195° undergo loss of CO, CO.2, or H2O, in a series of reactions which must involve earlj fission of the N—0 bond, presumably in a phosphoryl-ated intermediate. Thus, l-hydroxy-2- piperidone(108) gave carbon monoxide, 1-pyrroline (119), and the lactams (120 and 121). The saturated lactam is believed to be derived from disproportionation of the unsaturated lactam. 

The bicyclic compound (76) gave carbon dioxide, the saturated amine (122), and the unsaturated lactam (123). 

Electrophilic cyclizations of unsaturated amides to form 5- and 6-member lactams 98T13681. 

Formal oxidation of pyrrolidine to the succinimide stage affords a series of compounds used as anticonvulsant agents for treatment of seizures in petit mal epilepsy. Knoevnagel condensation of benzaldehyde with ethyl cyanoacetate affords the unsaturated ester, 9. Conjugate addition of cyanide ion leads to the di-nitrile ester (10). Hydrolysis in mineral acid affords the succinic acid (11), presumably by decarboxylation of the intermediate tricarboxyllie acid. Lactamization with methylamine gives phensuximide (12). ... 

Closely related to the penicillins are the cephalosporins, a group of /3-lactam antibiotics that contain an unsaturated six-membered, sulfur-containing ring. Cephalexin, marketed under the trade name Keflex, is an example. Cephalosporins generally have much greater antibacterial activity than penicillins, particularly against resistant strains of bacteria. 

Lactams 618 <5-Lactols 627 Lactones 617 reactions of 636 synthesis of 632, 737, 815 a,fl-unsaturated - see a,/J-Unsaturated lactones... 

Another example of macrocyclic RCM with a diene-ene was disclosed in 2000 by Meyers and coworkers in the first total synthesis of griseoviridin (223) [ 107]. Griseoviridin is a highly complex member of the family of streptogramin antibiotics, featuring a 23-membered unsaturated bis-lactam core incorporat-... 

Polyamide macromonomers can be made by reaction of the terminal acyllactam function with an unsaturated nucleophile such as the anion derived fromp. vinylbenzyl amine 8I). The nucleophilicity of the latter is higher than that of the lactam anion, and the reaction is straightforward. 

Diels-Alder reaction of dienophiles, N-allylic enamides and a,/l-unsaturated lactam derivatives with open chain and inner ring dienes is promoted by iodine [98]. Thus the cycloaddition of N-benzyl-N-methallyl acrylamide 147 with cyclo-pentadiene (1) proceeds smoothly in DMF at —78 °C in the presence of I2 (2 eq.) to give a prevalence of endo adduct l Vd) in 88% yield (Equation 4.17). 

The use of (TMSlsSiH with acyl selenides can also yield new C-C bond formation, as shown with the a,/l-unsaturated lactam ester (Reaction 67). The resulting ketone can be envisaged as potentially useful for the synthesis of 2-acylindole alkaloids. Both the effects of H-donating ability and steric hindrance by the silicon hydride are evident. 

A similar pre-orientation involving unsaturated carbon chains was operative on generating twelve-membered enediyne 23 and arenediyne lactams 24 [7]. The seco methylesters 21 and 22 were cleaved with LiOH, the corresponding carboxylic acids underwent cyclizations after activation with 2-fluoro-pyridinium tosylate 25 [8]. Dimerization products were found as by-products (<10%). It should be pointed out, that the lactamization succeeded in a single step in about 75% yield by treating the seco-methylesters 21 and 22 with Me3Al in refluxing methylene chloride. Obviously, the latter route was more convenient (Scheme 5). 

However, an almost classical attempt to generate an a, -unsaturated e-capro-lactam 87 involved a Knoevenagel condensation of 86 as the ring forming step. The material was employed in a synthesis of conformationally restricted analogs of some anti cancer agents (tetrahydrofolate analog) (Scheme 17) [24]. 

In Section 5.1.3 the conversion of aldehydes 491 and 494 into N-silylated Schiff bases and their in-situ reaction with allylmagnesium bromide into unsaturated secondary amines 493 and 495 is described. Likewise, reactions of the N-silylated Schiff bases such as 489 with the lithium enolate of methyl isobutyrate 498 to give yS-lactams such as 499 are also discussed in Section 5.1.3. 

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