Ring products

Perfluoropolyenes also can rearrange to four-membered ring products upon fluoride ron or Lewis acid catalysis [112, II3, 114] (equations 46 and 47) These intramolecular cycloadditions are multistep processes involving carbanion or carbocation intermediates... 

Formation of five-membered ring systems (1,2-addition) can compete with formation of the seven-membered heterocycles (1,4-addition). If the first step of the reaction sequence, namely the nucleophilic attack of the terminal heteroatoin of the diene, is hindered by steric or electronic effects, the five-membered ring product is formed exclusively. 

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 ... 

Nine-membered ring systems are potentially accessible via a TMM cycloaddition with conjugated trienes in a [6-1-3] fashion. However, tropone is the only reported system that undergoes such a reaction. Interestingly, these cydoadditions are remarkably selective in that only nine-memhered ring products are formed. 

The Diels-Alder reaction,is a cycloaddition reaction of a conjugated diene with a double or triple bond (the dienophile) it is one of the most important reactions in organic chemistry. For instance an electron-rich diene 1 reacts with an electron-poor dienophile 2 (e.g. an alkene bearing an electron-withdrawing substituent Z) to yield the unsaturated six-membered ring product 3. An illustrative example is the reaction of butadiene 1 with maleic anhydride 4 ... 

A modern variant is the intramolecular magnesium-ene reaction, e.g. the reaction of the alkene-allylic-Grignard compound 9 to give the five-membered ring product 10. This reaction proceeds regio- and stereoselectively, and is a key step in a synthesis of the sesquiterpenoid 6-protoilludene ... 

An important application of the Friedel-Crafts acylation is the intramolecular reaction, leading to ring closure. This variant is especially useful for the closure of six-membered rings, but five-membered ring products and larger rings, as well as heterocycles, are also accessible ... 

Cycloadditions of isocyanates and their derivatives with vinyiaziridines were first reported by Alper and coworkers. From their previous studies of cydoadditions to vinylepoxides or alkylaziridines, they investigated cydoadditions to vinyiaziridines and found that such reactions with isocyanates, carbodiimides, or isothiocyanates in the presence of catalytic amounts of Pd(OAc)2 (2 mol%) and PPh3 (10 mol%) at room temperature afforded five-membered ring products 249 in 34—97% yields (Scheme 2.61) [91]. When an aziridine 247 possessing an alkyl substituent at the... 

In a versatile stereocontrolled total synthesis of (+)-vinblastine, Fukuyama used a base-promoted macrocyclization of the N-nosylate and the terminal epoxide moiety present in 88 as one of the key steps, giving the 11-membered-ring product 89 in 82% yield (Scheme 8.23) [42],... 

With certain substituents, such as methoxy150 or (substituted) phenyl53 functions, in the allylie position the reaction outcome completely changes, giving rise to predominant or exclusive formation of five-membered ring products via a preceding 2-aza-Cope rearrangement of the initially formed A -acyliminium ion. These substituents clearly stabilize the intermediary carbo-cation 3. 

Cyclopolymerizations of other 1,6-dienes afford varying ratios of five- and six-membered ring products depending on the substitution pattern of the starting diene. Substitution of the olefinic methine hydrogen (e.g. 11, R- CH3) causes a shift from five- to six-membered ring formation. More bulky R substituents can prevent efficient cvclization and cross-linked polymers may result. 

The observation by Matsumoto et al. (see 4.3.1.4) that significant amounts of head addition occur in polymerization of simple ally] monomers brings into question the origin of the small amounts of six-membered ring products that arc formed in cyclopolymerization of simple diallyl monomers (Scheme 4.14). If the intcrmolecular addition step were to involve head addition, then the intramolecular step should give predominantly a six-membered ring product (14) (by analogy with chemistry seen for 1,7 dienes - see 4.4.1.4). Note that the repeat units 14 and 16, like 12 and 17 are the same however, they are oriented differently in the chain. 

The stereochemistry of the ring product (17) was rationalized in terms of the attraction and repulsion between the involved substituents98. The accompanying olefins may be formed via carbene intermediates (arising from a-elimination of S02 from sulfene), and the intermediacy of thiadiazoline dioxide (from sulfene and diazoalkane) explains the formation of the ketazine side-products. Thiadiazoline, on its part, may be formed directly by the cyclization of zwitterion 101. 

The most useful of the insertion processes is the intramolecular reactions that occur with high selectivity for the formation of five-membered ring products. The electrophilic nature of the process is suggested by C-H bond reactivity in competitive experiments (3°>20 >1°) [76, 77]. Asymmetric catalysis with Rh2(MPPIM)4 has been used to prepare a wide variety of lignans that include (-)-enterolactone (3) [8], as well as (R)-(-)-baclofen (2) [7],2-deoxyxylolactone (31) [80,81],and (S)-(+)-imperanane (32) [82].Enantioselectivities are 91-96%... 

The N,0- and N,S-heterocyclic fused ring products 47 were also synthesized under radical chain conditions (Reaction 53). Ketene acetals 46 readily underwent stereocontrolled aryl radical cyclizations on treatment with (TMSlsSiH under standard conditions to afford the central six-membered rings.The tertiary N,0- and N,S-radicals formed on aryl radical reaction at the ketene-N,X(X = O, S)-acetal double bond appear to have reasonable stability. The stereoselectivity in hydrogen abstractions by these intermediate radicals from (TMSlsSiH was investigated and found to provide higher selectivities than BusSnH. 

Dichloroalkyl)chlorosilanes undergo the Friedel-Crafts alkylation type reaction with biphenyl in the presence of aluniinurn chloride catalyst to afford 9-((chlorosilyl)alkyl)fluorenes through two step reactions (Eq. (16)). The results obtained from the alkylation of biphenyl and the cyclization reaction to 5-membered-ring product are summarized in Table XIIE... 

This reaction to bicyclic compounds containing the aziridine group was also observed for other amides, viz., 44c-f, when treated with a catalytic amount of f-BuOK in THF or MeONa in methanol. LDA treatment of the tosyl-activated substrate 44 a gave the five-membered ring product albeit in a low yield (31 %). Remarkably, the carboxamide derived from the cz5-aziridine failed to react with base, probably due to steric hindrance. 

Wender et al. reported a [5+2] cycloaddition in water by using a water-soluble rhodium catalyst having a bidentate phosphine ligand to give a 7-membered ring product (Eq. 4.69). This water-soluble catalyst was reused eight times without any significant loss in catalytic activity.133... 

Azolo[l,8]naphthyridines. The reactions of the chloronaphthyridine 229 with o-phenylenediamine at 200 °C and with sodium azide in acetic acid give the fused-ring products 230 and 231, respectively (Scheme 54) <2003IJB192>. Amino acid-substituted naphthyridines can be cyclized to the fused imidazolones 232 upon treatment with phosphorus oxychloride and under microwave irradiation (Equation 62) <2002SC857>. Acylation of 2-hydrazino-naphthyridines followed by heating gives W-acyl compounds which are cyclized intramolecularly to the [l,2,4]tri-azolo[4,3- ][l,8]naphthyridines 233 (Scheme 55) <1996IJB106>. The same compounds may also be obtained from... 

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