Seven-membered rings

When they treated TM 381 with base (MeO in MeOH) it was in fact 381A which was formed, so five membered rings are better than seven membered rings (J. Org. Chem.. 1976, 41, 2955). 

Dimethyl iodo(4-pentenyl)malonate (926) undergoes a Pd-catalyzed intramolecular radical-type reaction to form the alkyl iodides 927 and 928. rather than a Heck-type reaction product(775]. The same products are also obtained by a radical reaction promoted by tin hydride(776]. Although yield was low, a similar cyclization of the n-chloro ester 929 to form the seven-membered ring 930 was ob,served(777(. 

The ligand effect seems to depend on the substrates. Treatment of the prostaglandin precursor 73 with Pd(Ph3P)4 produces only the 0-allylated product 74. The use of dppe effects a [1,3] rearrangement to produce the cyclopen ta-none 75(55]. Usually a five-membered ring, rather than seven-membered, is predominantly formed. The exceptionally exclusive formation of seven-membered ring compound 77 from 76 is explained by the inductive effect of an oxygen adjacent to the allyl system in the intermediate complex[56]. 

Caprolactam [105-60-2] (2-oxohexamethyleiiiiriiQe, liexaliydro-2J -a2epin-2-one) is one of the most widely used chemical intermediates. However, almost all of the aimual production of 3.0 x 10 t is consumed as the monomer for nylon-6 fibers and plastics (see Fibers survey Polyamides, plastics). Cyclohexanone, which is the most common organic precursor of caprolactam, is made from benzene by either phenol hydrogenation or cyclohexane oxidation (see Cyclohexanoland cyclohexanone). Reaction with ammonia-derived hydroxjlamine forms cyclohexanone oxime, which undergoes molecular rearrangement to the seven-membered ring S-caprolactam. 

The possible variations among the three atoms comprising this reactive component make this the largest group and the one with the most potential for further development. They are particularly useful in the synthesis of five-, six- and seven-membered ring systems. They also may be conveniently considered according to their atom composition, and the hybridization state of any carbon atoms involved. 

Dipolarophiles utilized in these cycloadditions leading to five-membered heterocycles contain either double or triple bonds between two carbon atoms, a carbon atom and a heteroatom, or two heteroatoms. These are shown in Scheme 9 listed in approximate order of decreasing activity from left to right. Small rings containing a double bond (either C=C or C=N) are also effective dipolarophiles, but these result in six- and seven-membered ring systems. 

The NMR spectra of heterocyclic compounds with seven or more ring members are as diverse as the shape, size and degree of unsaturation of the compounds. NMR is perhaps the most important physical method to ascertain the structure, especially the conformational statics and dynamics, of large heterocycles. Proton-proton coupling constants provide a wealth of data on the shape of the molecules, while chemical shift data, heteroatom-proton coupling constants and heteronuclear spectra give information of the electronic structure. Details are found in Chapters 5.16-5.22. Some data on seven-membered rings are included in Table 10. 

Preparation of spirooxaziridines from cyclic ketones poses no problems nor does oxaziridine synthesis from cyclic Schiff bases, which was preferably carried out with pyrro-lines to give, for example (245) (59JCS2102) and, in connection with tranquilizer synthesis, with heterocyclic seven-membered rings to give, for example, (246) (63JOC2459). 

The TIPDS derivative can be induced to isomerize from the thermodynamically less stable eight-membered ring to the more stable seven-membered ring derivative. The isomerization occurs only in DMF. 

Substituent effects (electronegativity, configuration) influence these coupling constants in four-, five- and seven-membered ring systems, sometimes reversing the cis-tmns relationship so that other NMR methods of structure elucidation, e.g. NOE difference spectra (see Section 2.3.5), are needed to provide conclusive results. However, the coupling constants of vicinal protons in cyclohexane and its heterocyclic analogues (pyranoses, piperidines) and also in alkenes (Table 2.10) are particularly informative. 

All the double bonds can be localized on the (9n,0)-(5n,5n) knee and connected tubule. There is no double bond on the sides of the five-membered ring and only one double bond on the seven-membered ring. 

Similar sulfenylation reactions of the 2-subsdtuted cyclic enamines of -keto carboxylic acid anilides are also possible, The trifluoromethanesulfenyl substitution takes place according to ring size Sulfenylation occurs at positions 2 and 5 with five-membered rings, at posibon 6 with six-membered tings, and at position 7 with seven-membered rings [5J (equation 4) (Table 1). Acid hydrolysis of the enamines proceeds readily to form the corresponding keto compounds. 

An unusual seven-membered ring-forming rearrangement was observed m the addition of diazomethane to a perfluorinated cyclobutene [5] (equation 3)... 

Oxiranes exhibit 1,3 [e,n] capacity. Therefore, seven-membered ring systems can be synthesized on reaction with hetero-1,3-dienes. The reaction is catalyzed by 4-dimethylaminopyridine. On catalysis with boron trifluonde, the regioche-mistry is reversed [263] (equation 58). 

The reactions of S4N4 with alkynes have also been investigated in considerable detail. These reactions produce 1,3,5,2,4-trithiadiazepines (5.9) and 1,3,5,2,4,6-trithiatriazepines (5.10), both of which are planar, ten r-electron seven-membered rings (Section 12.3), but the major products are 1,2,5-thiadiazoles. ... 

The formation of a-acetoxyketones by oxidation of enamines with thallic acetate has been studied in detail (27) and found to be of preparative value (80 % yields) particularly in five- and six-membered-ring ketone derivatives. Enamines of linear or seven-membered-ring ketones were oxidized also, but at very much slower rates. Enamines of aldehydes with a-hydrogen substituents underwent self-eondensations during the oxidation reactions. Lead tetraacetate was less satisfactory as an oxidizing agent. 

Finally, examine the transition states for closure of the Ci enolate to the 7-membered ring product, and of the C3 enolate to the 5-membered ring product. Calculate activation energy barriers from their respective enolates. Which ring closure (to the five or the seven-membered ring) occurs more readily ... 

The tetracyclic y-carboline derivative 233 was obtained via an interesting ring contraction when the seven-membered ring compound 232 was heated with selenium. 

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