Cyclization processes

The following acid-catalyzed cyclizations leading to steroid hormone precursors exemplify some important facts an acetylenic bond is less nucleophilic than an olelinic bond acetylenic bonds tend to form cyclopentane rather than cyclohexane derivatives, if there is a choice in proton-catalyzed olefin cyclizations the thermodynamically most stable Irons connection of cyclohexane rings is obtained selectively electroneutral nucleophilic agents such as ethylene carbonate can be used to terminate the cationic cyclization process forming stable enol derivatives which can be hydrolyzed to carbonyl compounds without this nucleophile and with trifluoroacetic acid the corresponding enol ester may be obtained (M.B. Gravestock, 1978, A,B P.E. Peterson, 1969). 

With an amine reactant, it has been shown that roughly one-third of the current passed makes Hquid product, one-third gas, and one-third goes to HF-soluble polyfluorinated products (24). The ether perfluoro(2-butyltetrahydrofuran) [335-36-4] is made from a cyclization process during the ECF of perfluorooctanoyl chloride other cycHc ethers have been prepared from certain ester reactants by a similar cyclization (25). Perfluoroaminoethers have been prepared by ECF (26). 

Electrocyclic reactions of 1,3,5-trienes lead to 1,3-cyclohexadienes. These ring closures also exhibit a high degree of stereospecificity. The ring closure is normally the favored reaction in this case, because the cyclic compound, which has six a bonds and two IT bonds, is thermodynamically more stable than the triene, which has five a and three ir bonds. The stereospecificity is illustrated with octatrienes 3 and 4. ,Z, -2,4,6-Octatriene (3) cyclizes only to cw-5,6-dimethyl-l,3-cyclohexadiene, whereas the , Z,Z-2,4,6-octa-triene (4) leads exclusively to the trans cyclohexadiene isomer. A point of particular importance regarding the stereochemistry of this reaction is that the groups at the termini of the triene system rotate in the opposite sense during the cyclization process. This mode... 

Fluorme-containing Michael addition acceptors have been used as synthons, a portion of a molecule recognizably related to a simpler molecule, for the introduction of fluorine into the organic molecules Their reactions with enamines and ketones lead to a condensarion-cyclization process... 

The Pictet-Spengler reaction is an acid-catalyzed intramolecular cyclization of an intermediate imine of 2-arylethylamine, formed by condensation with a carbonyl compound, to give 1,2,3,4-tetrahydroisoquinoline derivatives. This condensation reaction has been studied under acid-catalyzed and superacid-catalyzed conditions, and a linear correlation had been found between the rate of the reaction and the acidity of the reaction medium. Substrates with electron-donating substituents on the aromatic ring cyclize faster than the corresponding unsubstituted compounds, supporting the idea that the cyclization process is involved in the rate-determining step of the reaction. 

The participation of the lone-pair orbital in the cyclization process allows its classification as a so-called pseudopericyclic reaction (76JA4325 97JA4509), which is a subset of a general type of pericyclic reactions... 

Synthetically, vicinal functionally substituted aryl- and hetarylacetylenes are promising intermediates for preparing different condensed heterocyclic compounds, taking into account the fact that these polyfunctional groups can be selectively involved in cyclization processes. 

Total syntheses of racemic Melinonine E (316) and Strychnoxanthine (317) were performed using a radical cyclization process as the key step (98JOC968). Melinonine E was first isolated from the bark of Strychnos melinoniana in 1957 (57HCA1167), but structure elucidation was not carried... 

Radical cyclization of perhydro-l,3-benzoxazines 64, promoted by Bu4SuH in the presence of AIBN gave a mixture of perhydropyrido[2,l-6][1,3]benzoxazin-9-ones 65 and 66 and seven membered tricyclic derivatives 67 and 68, formed in a 6-exo and 7-endo cyclization process, respectively (99TL2421). Cyclization of parent acrylamide 64 (R = R = H) occured with moderate regioselectivity (6-exo/7-endo ratio 65 35) and poor stereoselectivity (65/66 ratio 42 43). The presence of a /3-methyl group in... 

Vinyl radicals can also participate in 6-exo cyclizations. In pioneering work, Stork and his group at Columbia University showed that stereoisomeric vinyl bromides 20 and 21 (see Scheme 3) can be converted to cyclohexene 22.7 The significance of this finding is twofold first, the stereochemistry of the vinyl bromide is inconsequential since both stereoisomers converge upon the same product and second, the radical cyclization process tolerates electrophilic methoxycarbonyl groups. The observation that the stereochemistry of the vinyl bromide is inconsequential is not surprising because the barrier for inversion of most vinyl radicals is very low.8 This important feature of vinyl radical cyclization chemistry is also exemplified in the conversion of vinyl bromide 23 to tricycle 24, the key step in Stork s synthesis of norseychellanone (25) (see Scheme 4).9 As in... 

Scheme 10. Shibasaki s asymmetric Heck cyclization process.

Scheme 12. Trost s palladium(n)-catalyzed Alder ene cyclization process.

The 6-endo activated epoxy alcohol cyclization process was also expected to play a central role in the annulation of pyran ring G of the natural product (see Scheme 22). Silylation of the free secondary hydroxyl group in compound 131 furnishes, after hydrobora-tion/oxidation of the double bond, compound 132. Swern oxidation of alcohol 132 produces an aldehyde which reacts efficiently with (ethoxycarbonylethylidene)triphenylphosphorane in the presence of a catalytic amount of benzoic acid in benzene at 50 °C, furnishing... 

It is interesting to note that the pyrazole 3c is partially (28%) converted into the diazepine 2c on heating in 1,2-dimethoxyethane for 2.5 hours, showing that the cyclization processes are reversible.140... 

Recently, Lee and co-workers reported an efficient method for the preparation of enantiomerically pure oxazolidin-2-ones from aziridine-2-carboxylates 186 (Scheme 3.68) [128]. This one-pot aziridine ring-opening and subsequent intramolecular cyclization process was highly regio- and stereoselective, affording 187 in high yield. 

Those reactions that have found general use for the preparation of aziridines can be grouped into two broad classes addition and cyclization processes, and each of these categories can be further divided. Addition processes can be classified as being C2+N1 reactions (addition of nitrenes, or nitrene equivalents [ nitrenoids ], to alkenes Scheme 4.1) or (J N1+C1 reactions (addition of carbenes or carbenoids to imines Scheme 4.2). 

Scheme 8.7 A 6-endo cyclization process in a hydroxy-epoxy ketone.

Aluminum oxide catalyzed addition of ethyl nitroacetate to racemic 2,3-cpoxy aldehydes 7 affords substituted 4,5-dihydroisoxazole 2-oxides through a regio- and stereospecific tandem nitroaldol cyclization process. High diastereoselectivities are observed in the reaction of cis-epoxyaldehydes to yield the ethyl, vi7 -4.5-dihydro-4-hydroxy-5-( I -hydroxyalkyl)-3-isoxazole-carboxylate 2-oxides, with tram configuration at the ring positions, whereas reactions of trans-and 3,3-disubstituted 2,3-epoxyaldehydes proceed with lower selectivities28. 

The main primary fragment ions of diaryl sulfoxides 13 and 14 have the structures 16a or 16b(C8H7S02 + m/z 167) and the ion m/z 152 (17) can be obtained from both by the loss of CH3 (equation 5)13. Ions 16a and 16b are formed from the sulfenate ester structure of the molecular ions of 13 and 14 through a cyclization process and a simultaneous loss of the other O Ar part. A similar ortho effect is not possible in 15 and hence its most intense ion is M+ (23% of the total ionization in comparison with 2.7 and 0.6% for 13 and 14, respectively) and its primary fragments are typical for a normal diaryl sulfoxide. 

During incineration of 1 in the polymeric matrix debromination/hydrogenation occur in addition to cyclization process. Tetrabrominated dibenzofuran isomers are the most abundant products formed in the temperature range between 300° or 400° (Figure 6 shows Br-composition at 300° - 800°C). Incineration at 400°C gives tetrabromo-benzofurans in yields up to 13 % (Fig. 6). Besides of PBDF, brominated dibenzodioxins are also formed, but to a much lesser extent (30-90 ppm) (ref. 11). 

Cyclization of ketoester 100 occurs readily to give the 2,6-disubstituted piperidine 101. The geometry about the carbon-carbon double bond of the Michael acceptor in 100 was shown to have a significant impact on the diastereoselectivity of the cyclization process <96JCS(P1)967>. 

Despite the aversion of the sulphonyl group to function as a nucleophile, there are a limited number of literature reports that deseribe sueh a process . The first of these does not lead to a reduetion at sulphur and is thus not direetly relevant, but the report by Braverman and Duar deseribes reaetions in whieh an acetylenie sulphinate ester ean undergo a [2,3] sigmatropie rearrangement to an allenie t-butyl sulphone. Reaetion of this sulphone with the appropriate eleetrophile, for example bromine, gave a y-sultine, formation of whieh requires the partieipation of the sulphonyl group in an intramoleeular cyclization process. The reactions are outlined in equation (40). 

Several syntheses of thienobenzazepines have been reported in the literature however, they generally require the use of reagents and/or reaction conditions which present challenges on a preparative scale. In this manuscript we describe a new and efficient synthesis of the thieno[2,3-c]benzazepine tricycle that involves a key selective reduction-intramolecular amidation cyclization process and enables large-scale preparation of these important compounds. 

Trimethylsilylepoxides can be prepared by an addition-cyclization process. Reaction of chloromethyltrimethylsilane with sec-butyllithium at very low temperature gives an a-chloro lithium reagent that leads to an epoxide on reaction with an aldehyde or ketone.291... 

Alkenyl radicals generated by intramolecular addition to a triple bond can add to a nearby double bond, resulting in a tandem cyclization process. 

Besides taxodione and taxodone, these synthetic approaches have been conveniently modified to synthesize other related derivatives such as ferruginols, sugiols, and royleanones.51-52,56-57,60-62 In addition, the enantiomeric-selective synthesis of (+ )-taxodione 1 has been reported using (—)-abietic acid as the starting material63 or with a chiral ligand in the polyene cyclization process.64... 

Scheme 2.123. Synthesis of indols via a domino carbolithiation/addition/cyclization process.

Scheme 3.11. Domino radical cyclization process towards the total synthesis of CP-263,114 (3-32).

Scheme 3.78. Domino radical double ring expansion/cyclization process with oxime ethers.

Scheme 10.14. Domino radical addition-cyclization process of oxime ethers.

Scheme 10.18. Solvent-free domino Wittig-Claisen cyclization-process.

The present tandem nitro aldol-cyclization process is used for the preparation of the enantiomerically pure 4-hydroxy-2-isoxazoline-2-ones. They are prepared starting from chiral a-mesyloxy aldehydes and ethyl nitroacetate under mild reaction conditions (Eq. 8.85).136... 

The detailed mechanism of ring closure to a C6 ring has long been the subject of speculation (3, 184, 187). For the present purposes we merely note that all of the cyclization processes (11)—(15) already discussed for platinum, are potentially applicable. 

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