Cyclization Cyclohexane

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). 

It has been found that the fusion of the pyrazole with the pyrrole ring is difficult, probably for steric reasons. All attempts to cyclize 3-amino- and 5-amino-4-acetylenylpyrazole have failed. For example, upon prolonged heating of 5-amino-4-acetylenylpyrazole 68 in DMF in the presence of Cul and (or) CuC=CPh, side transformations andresinification occurred. The side processes were suppressed by acylation of the amino group and substitution of DMF by inert cyclohexane. However, 80-90% of the starting compounds was recovered after heating acylamine... 

Quaternization of harman (235) with ethyl bromoacetate, followed by cyclization of the pyridinium salt 236 with 1,2-cyclohexane-dione in refluxing ethanol yielded an ester which on hydrolysis gave the pseudo-cross-conjugated mesomeric betaine 237. Decarboxylation resulted in the formation of the alkaloid Sempervirine (238). The PCCMB 237 is isoconjugate with the 11/7-benzo[u]fluorene anion—an odd nonalternant hydrocarbon anion—and belongs to class 14 of heterocyclic mesomeric betaines (Scheme 78). 

The second aromatization reaction is the dehydrocyclization of paraffins to aromatics. For example, if n-hexane represents this reaction, the first step would be to dehydrogenate the hexane molecule over the platinum surface, giving 1-hexene (2- or 3-hexenes are also possible isomers, but cyclization to a cyclohexane ring may occur through a different mechanism). Cyclohexane then dehydrogenates to benzene. 

The intramolecular Michael addition of acyclic systems is often hampered by competing reactions, i.e., aldol condensations. With the proper choice of Michael donor and acceptor, the intramolecular addition provides a route to tram-substituted cyclopentanones, and cyclopentane and cyclohexane derivatives. Representative examples are the cyclizations of /3-oxo ester substituted enones and a,/J-unsaturated esters. 

Furthermore, intramolecular cyclization of acyclic chiral imines, in which the imine and the enone groups are separated by alkyl chains, yield optically active cyclohexane and cyclopentane derivatives. /ra .v-l,2-Disubstitutcd carbocyclic compounds are exclusively or predominantly formed with diastereomeric ratios in the range 80 20 100 0, strongly dependent on the conditions used to induce cyclization, i.e. heat, pressure or Lewis acid (MgBr2) catalysis227. 

The submitters report that this free radical cyclization was also effected by heating a solution of 5.00 g. (0.026 mole) of ethyl (E)-2-cyano-6-octenoate and 1.25 g. (0.0086 mole) of di-ferf-butyl peroxide [bis(l,l-dimethylethyl)peroxide] in 500 ml. of freshly distilled cyclohexane at 140° in an autoclave for 30 hours. The solution was concentrated and the residue was distilled to yield 3.4 g. (68%) of ethyl l-cyano-2-methylcyclohexanecarboxylate. 

A new class of bicyclic oxalactam, 8-oxa-6-azabicyclo[3.2.1]octan-7-one 61 was synthesized by intramolecular cyclization of 3,4-dihydro-2H-pyran- 2-carboxamide 62 using p-toluenesulfonic acid as a catalyst in an equivalent mixture of DMF and benzene at 100 °C for 4 hours57, S8. Corresponding conversion of 3-cyclohexane carboxamide 63 to bicyclic lactam 64 has never been accomplished54. ... 

In this section primarily reductions of aldehydes, ketones, and esters with sodium, lithium, and potassium in the presence of TCS 14 are discussed closely related reductions with metals such as Zn, Mg, Mn, Sm, Ti, etc., in the presence of TCS 14 are described in Section 13.2. Treatment of ethyl isobutyrate with sodium in the presence of TCS 14 in toluene affords the O-silylated Riihlmann-acyloin-condensation product 1915, which can be readily desilylated to the free acyloin 1916 [119]. Further reactions of methyl or ethyl 1,2- or 1,4-dicarboxylates are discussed elsewhere [120-122]. The same reaction with trimethylsilyl isobutyrate affords the C,0-silylated alcohol 1917, in 72% yield, which is desilylated to 1918 [123] (Scheme 12.34). Likewise, reduction of the diesters 1919 affords the cyclized O-silylated acyloin products 1920 in high yields, which give on saponification the acyloins 1921 [119]. Whereas electroreduction on a Mg-electrode in the presence of MesSiCl 14 converts esters such as ethyl cyclohexane-carboxylate via 1922 and subsequent saponification into acyloins such as 1923 [124], electroreduction of esters such as ethyl cyclohexylcarboxylate using a Mg-electrode without Me3SiCl 14 yields 1,2-ketones such as 1924 [125] (Scheme 12.34). 

The crucial cyclization of 129 was accomplished by oxidation with pyri-dinium chlorochromate (PCC) and acetylation, providing two cyclohexane derivatives (130 and 131) in the ratio of 10 1. Thermal decarboxylation of 130 resulted in formation of the cyclohexene derivative 132, with concomitant elimination. Reduction of the ester group with diisobutylaluminum hydride converted 132 into 133. Hydroboration-oxidation of 133 gave the carba-sugar derivative 134 as a single product. 

Lycopene is the typical substrate for cyclization. One or both ends of the acyclic precursor can be cyclized. Cyclization can occur in one of two ways to create two different ring structures, differing only by the position of the double bond in the cyclohexane ring. Different enzymes form each of the rings, the lycopene-(3-cyclase (LCYB) and the lycopene-e-cyclase (LCYE), as shown in Figure 5.3.3. 

Even though cyclohexane is rapidly converted into benzene under these conditions, the results in Figure 3 clearly prove that it cannot be a gas phase intermediate in the n-hexane reaction. If it were, there would have been radioactivity in the unreacted cyclohexane when it was mixed with labeled n-hexane none was observed. This proves that the cyclization step must be further along the reaction stream and must not involve an olefin forming cyclohexane which then dehydrogenates to the aromatics. 

Gomez, A.M., L6pez, J.C., Fraser-Reid, B. (1994) Serial Radical Cyclization ofPyranose-Derived Dienes in the StereocontroUed Synthesis of Densely Functionalized Cyclohexanes. A Route to Woodward s Reserpine Precursor. Journal of Organic Chemistry, 59, 4048M 050. 

Similar reactivity is observed in the cyclization of enynes in the presence of the yttrium-based catalyst 70 and a silane reductant [53,54]. The 1,6- and 1,7-enynes 90 and 91 provide -E-alkylidene-cyclopentancs 92 and -cyclohexanes 93 in very good yield (Eq. 15, Scheme 20) [55]. These transformations likely proceed by syn hydrometallation of the 7r-basic alkyne, followed by insertion of the alkene and a-bond metathesis. The reaction of 1,6-enynes tolerated... 

Palladium complexes are effective catalysts for the reductive cydization of enyne substrates [53,54], The first report of catalytic cydization of 1,6- and 1,7-enynes 115a,b to cyclopentane 116a and cyclohexane 116b derivatives appeared in 1987 (Eq. 19) [70]. The authors proposed that the Pd(II) species 117 forms by oxidative addition of acetic acid to Pd(0) (Scheme 25). Complex 117 hydrometallates the alkyne to give 118, which cyclizes to provide... 

The Prins cyclization can also be coupled with a ring-contraction pinacol rearrangement, as illustrated in Scheme 1.6. This allows a smooth conversion of alkyl-idene-cyclohexane acetal 1-16 to single bond-joined cyclohexane cyclopentane aldehyde 1-17 [le]. 

NaBH4-reduced cyclohexane derivatives (27). Cyclization of 27 to 21-23 is carried out with ammonia and formaldehyde.37-39 A convenient two-step... 

Recently a new ring system, 2-oxa-4,10-diazaadamantane, was prepared as its derivatives from 2,4-dinitrophenol (217).241 2,4-Diacetylaminophenol (218) is reduced to the cyclohexane derivative (219), which is cyclized either... 

A wide variety of other photocyclizations have been reported, but only a few of these have any general application. The unsaturated amine 366 undergoes cyclization in cyclohexane to give the 7-azabicyclo[4.3.0]nonan-2-one 367.303 The formation of pyrrolidine derivatives by photocyclization has also been observed in JV-alkyl-2-allylanilines,304 and imidazoles have been obtained by irradiation of 2-amino-1-dialkylaminoanthraquinones.30 5... 

To date, a single study pertaining to enantioselective yttrocene-catalyzed reductive diene cyclization is reported.36 Using the -symmetric yttrocene [(R,Y)-BnBpY-H]2, a range of 1,5- and 1,6-dienes are transformed to the corresponding cyclopentanes and cyclohexanes. In terms of asymmetric induction, the formation of cyclopentane 13b in 50% ee from 1,5-diene 13a represents the most favorable result (Scheme 10). 

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