Cyclohexane derivatives cycloaddition reactions

Another example of a [2s+2sh-1c+1co] cycloaddition reaction was observed by Barluenga et al. in the sequential coupling reaction of a Fischer carbene complex, a ketone enolate and allylmagnesium bromide [120]. This reaction produces cyclopentanol derivatives in a [2S+2SH-1C] cycloaddition process when -substituted lithium enolates are used (see Sect. 3.1). However, the analogous reaction with /J-unsubstituted lithium enolates leads to the diastereoselective synthesis of 1,3,3,5-tetrasubstituted cyclohexane- 1,4-diols. The ring skeleton of these compounds combines the carbene ligand, the enolate framework, two carbons of the allyl unit and a carbonyl ligand. Overall, the process can be considered as a for-... 

Muthusamy et al. (82) prepared a number of oxacyclic ether compounds from the tandem ylide formation-dipolar cycloaddition methodology. Their approach provides a synthetic tactic to compounds such as ambrosic acid, smitopsin, and linearol. Starting with either cyclopentane or cyclohexane templates, they prepared ylide sizes of five or six, which are trapped in an intermolecular cycloaddition reaction by the addition of DMAD. The products are isolated in good overall yield. In a second system, 2,5-disubstituted cyclohexenyl derivatives are utilized to generate the pendent ylide, then, A-phenylmaleimide is added in an intermolecular reaction, accessing highly substituted oxatricyclic derivatives such as 182 (Scheme 4.43). 

Further reactions that are highly suited to the synthesis of cyclohexane derivatives, such as cycloaddition processes, 1,3-dipolar additions, and Diels-Alder cyclizations, have been used extensively. In the latter set, carbohydrate-based dienes or dienophiles have been employed and, in addition, intramolecular processes have provided highly suitable means of synthesizing complex polycyclic systems. 

Several cycloaddition reactions of 2,5-dihydrothiophene derivatives have been reported. Compounds possessing an enamine system undergo [2 + 2] cycloaddition with acetylene-dicarboxylic ester (Scheme 215) (77AHC(2l)253). Diels-Alder addition of the 2,5-di-hydrothiophene-3-carboxylic ester (557) with butadiene, followed by desulfurization, leads to the trisubstituted cyclohexane (558) (B-74MI31404). 

The third radical cation structure type for hexadiene systems is formed by radical cation addition without fragmentation. Two hexadiene derivatives were mentioned earlier in this review, allylcyclopropene (Sect. 4.4) [245] and dicyclopropenyl (Sect. 5.3) [369], The products formed upon electron transfer from either substrate can be rationalized via an intramolecular cycloaddition reaction which is arrested after the first step (e.g. -> 133). Recent ESR observations on the parent hexadiene system indicated the formation of a cyclohexane-1,4-diyl radical cation (141). The spectrum shows six nuclei with identical couplings of 11.9G, assigned to four axial p- and two a-protons (Fig. 29) [397-399]. The free electron spin is shared between two carbons, which may explain the blue color of the sample ( charge resonance). At temperatures above 90 K, cyclohexane-1,4-diyl radical cation is converted to that of cyclohexene thus, the ESR results do not support a radical cation Cope rearrangement. 

Cyclohexane derivatives, 569 aldol cyclization, 575, 586 alkenylsilanes, 575 C-1 carbanions, 580 cycloaddition processes, 582 cycloaddition reactions, 582 2-deoxystrq)tamine, 571 Dieckmann cyclization, 574 Diels-Alder cyclizations, 571, 582,584, 585, 589... 

An (SiNCO)-unit arises as intermediate product as result of a [2 + 2]-cycloaddition. Thermal reaction with LiF leads to a cyclohexane derivative. An alternative pathway might be the formation of an alcoxide starting from the aldehyde which attacks the silicon atom. 

The total synthesis of (+)-cyclophellitol containing a fully oxygenated cyclohexane ring was accomplished by T. Ishikawa and co-workers. The synthetic strategy was based on the intramolecular silyl nitronate [3+2] cycloaddition reaction. The cycloaddition precursor was prepared by the Henry reaction starting from a D-glucose-derived aldehyde. 

A review (37 refs.) on the application of molecular orbital calculations to the stereoselectivity of addition reactions of nitro-enitol derivatives has been published in Japanese. Cycloaddition of 1-acetoxy- or 1-trimethylsilyloxy-butadiene to l,2-dideoxy-l-nitro-D-g/ co-hept-l-enitol tetraacetate gave mainly the cyclohexane derivatives 41. Additions of alcohols, carbon radicals and phosphoiyl... 

Because of its superb stereoselectivity, the Diels-Alder reaction is often used as a key step in the construction of acyclic building blocks containing several defined stereocenters. The strategy is to retrosynthetically convert the target into a cyclohexane derivative that is accessible by [4 + 2] cycloaddition. Suggest a synthesis of (racemic) compound A from starting materials containing four carbons or less. 

Intramolecular versions of the ene reaction using Lewis acids can be applied to nonconjugated dienes. Thus, 2.8-dienoic acid derivatives lead to cyclohexane systems27. Side products in this conversion stem from intramolecular hetero-Diels-Alder cycloaddition. Chiral Lewis acids, such as titanium alkoxidcs modified with tartaric acid derived chiral diols, lead to asymmetric induction with up to 98% ee27,88. 

As stated in the Introduction, N-sulfinyl compounds bearing electron-withdrawing substituents react as heterodienophiles. Arylsulfinyl derivatives usually require heating for a reaction to occur, whereas other types of N-sulfinyl dienophiles will often cycloadd near room temperature or below. In fact, these cycloadditions are sometimes dangerously exothermic when run in the absence of a solvent, and usually an inert solvent such as benzene, toluene, or cyclohexane is used.2 ... 

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