Cyclopentane disubstituted derivatives

In fact, esters of amino alcohols and 2,2-disubstituted plii iiylacetic acids show useful antitussive activity the mecha-lM iii of action may include bronchiodilation. Double alkylation III the anion of phenylacetonitrile with 1,4-dibromobutane gives llit i cyclopentane-substituted derivative (33). Saponification... 

On the other hand, Beckwith rules [22] are useful guidelines for predicting the stereoselectivity in the cyclisation of substituted hexenyl radicals i) 1- or 3-substituted radicals give preferentially cij-disubstituted cyclopentane derivatives and ii) 2- or 4-substituted radicals give mainly rrans-disubstituted derivatives. These rules can be explained in terms of 1,3-diaxial interactions present in a chair-like transition state. Some examples which demonstrate such an effect are [19b] ... 

The use of 13C-NMR spectroscopy in stereochemical assignment of disubstituted cyclopentanes has been investigated using dimethylcyclopentanes and mcthylcyclopentanols495. In 1,2-disubstituted derivatives the chemical shifts of the substituted and the methyl carbons are significantly smaller (2 to 5 ppm) in the cis than in the trans series. In 1,3-disubstituted cyclopentanes the sequence is the same, but the differences are often so small that a reliable assignment is possible only if both isomers are available. 

The aforementioned analysis makes it evident that no special electronic effects (captodative stabilization, spin polarization, etc.) play a significant role in the localized triplet diradicals 9-11. Nevertheless, the question arises whether the electronic substituent effects in such triplet diradicals are additive, that is, whether the substituents on the two aryl groups act independently of one another. This feature was tested by comparison of the AD values of the unsymmetrical monosubstituted triplet diradicals 9 with those of the corresponding symmetrical disubstituted derivatives 10. Indeed, a linear correlation (Fig. 8) with a slope of nearly one-half (m = 0.558) unequivocally establishes that the electronic effects on the D parameter of localized triplet diradicals are additive [7], Thus, the localized triplet diradicals 9-11 may be considered to be electronically a composite of two independent (except for dipolar interactions) cumyl-type monoradicals, embedded in the molecular framework of the planar cyclopentane- 1,3-diyl ring system. This fact allows us to assess electronic substituent effects on the cumyl monoradicals 14 from the experimentally determined D parameter of the cyclopentane-1,3-diyl triplet diradicals 9-11 through the changes of the spin densities. 

C—H bond 174-280,28i por comparison, only trace amounts of cyclopentane resulted from the CuS04-catalyzed decomposition of 1 -diazo-2-octanone or l-diazo-4,4-dimethyl-2-pentanone 277). It is obvious that the use of Rh2(OAc)4 considerably extends the scope of transition-metal catalyzed intramolecular C/H insertion, as it allows for the first time, efficient cyelization of ketocarbenoids derived from freely rotating, acyclic diazoketones. This cyelization reaction can also be highly diastereo-selective, as the exclusive formation of a m is-2,3-disubstituted cyclopentane carboxylate from 307 shows281 a). The stereoselection has been rationalized by... 

Molybdenum catalysts that contain enantiomerically pure diolates are prime targets for asymmetric RCM (ARCM). Enantiomerically pure molybdenum catalysts have been prepared that contain a tartrate-based diolate [86], a binaph-tholate [87], or a diolate derived from a traris-1,2-disubstituted cyclopentane [89, 90], as mentioned in an earlier section. A catalyst that contains the diolate derived from a traris-1,2-disubstituted cyclopentane has been employed in an attempt to form cyclic alkenes asymmetrically via kinetic resolution (inter alia) of substrates A and B (Eqs. 45,46) where OR is acetate or a siloxide [89,90]. Reactions taken to -50% consumption yielded unreacted substrate that had an ee between 20% and 40%. When A (OR=acetate) was taken to 90% conversion, the ee of residual A was 84%. The relatively low enantioselectivity might be ascribed to the slow interconversion of syn and anti rotamers of the intermediates or to the relatively floppy nature of the diolate that forms a pseudo nine-membered ring containing the metal. 

An interesting application of a 1,2-disubstituted cyclopropanol in a seven-membered ring-annelation methodology has been developed by Cha et al. [82], The cyclopropanol 124, obtained from methyl 1-cyclopentenecarboxylate (123) and 4-(triisopropylsilyloxy)-butylmagnesium chloride, was converted to a 1,2-dialkenylcyclopropanol bis-silyl ether, which, by a subsequent facile Cope rearrangement, afforded the cycloheptadiene-anne-lated cyclopentane derivative 125 in 32% overall yield (Scheme 11.32). 

The inversion process accompanying Sn2 reactions may have particular significance in cyclic compounds. Thus, if we consider the disubstituted cyclopentane derivative shown undergoing an Sn2... 

In the ring closures of the 1,2-disubstituted 1,3-difunctional cyclohexane, cycloheptane, and cyclooctane derivatives discussed in Sections II,A,B, and C, no appreciable differences were found in the reactivities of the cis and trans isomers. In contrast, very significant differences were observed in the cyclization reactivities of the cis and trans 1,2-disubstituted 1,3-difunctional cyclopentane derivatives, such as 1,3-amino alcohols, 2-hydroxy-l-carboxamides or /S-amino acids. Whereas the cis isomers reacted readily, their trans counterparts did not undergo ring closure in most cases. This difference was manifested in the formation of both d - and e -fused derivatives. 

Thus, the hydroboration of 1-phenylcyclopentene with (—)-IpcBH, (99% produces, after crystallization, the chiral organoborane 126 with 94% ee. The reaction of 126 with Et2BH replaces the isopinocamphenyl group with an ethyl substituent (50 C, 16 h) and provides, after the addition of i-Pr2Zn (25 °C, 5 h), the mixed diorganozinc 127. Its stereoselective allylation leads to the fraw5-disubstituted cyclopentane 128 in 44% yield (94% ee trans cis = 98 2) see Scheme 43 ° . This sequence can be extended to open-chain alkenes and Z-styrene derivative 129 is converted to the anf/ -zinc reagent 130, which provides after allylation the alkene 131 in 40% yield and 74% ee (dr = 8 92). 

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). 

Turova-Polyak and co-workers have carried out extensive studies of naphthene isomerization with AICI3, particularly of the substituted cyclopentanes. The conversion of mono- and disubstituted cyclopentanes to cyclohexanes was reported as an analytical technique for the determination of cyclopentanes in mixture with paraffins (411). Ethyl-cyclopentane at room temperature gave an 18-20% yield of cyclohexane derivatives (412). At 140-145°, an 85% yield of 1,3,5-trimethyl-cyclohexane was obtained. This work was also extended to 1,1-dimethyl-cyclopentane (410), up to 95% of which was converted to methyl-cyclohexane at 115°. Similar conversions of alkylated cyclopentanes were also reported by Shulkin and Plate (375). These researches parallel similar work done in the United States. 

Disubstituted norbornene derivatives 14 give 2,3-e3to-eis-oxiranes with MCPBA. With the cyclopentane ring fixed in the envelope form, there is total stereoselectivity (Eq. 5). ... 

It is noteworthy that the ring closures of 1,2-disubstituted cyclohexane, cycloheptane and cyclooctane derivatives revealed no appreciable differences in the reactivities of the cis and trans isomers in the formation of six-membered 1,3-heterocycles [117]. In contrast, striking differences were observed in the cyclizations of the cis and trans cyclopentane derivatives. For instance, the above cyclizations to pyrimidinones, starting from the trans counterparts, were unsuccessful. The attempted ring closure from 104 did not result in the cyclized products, but gave hydrolysed derivatives 105 and 106 [111]. 

Enantio.selective cyclization of carbanions derived from iV.Ai-diisopropylcarbamates can lead to cis- or rrans-1,2-disubstituted cyclopentane derivatives by treatment with v-BuLi-(—)-sparteine. ... 

A 2,5-disubstituted C g tetrahydrofuran fatty ester [13] was obtained from methyl ricinoleate by addition of bromine to the isomerized substrate, followed by hydrogenation over palladium on charcoal (68). Free radical and Lewis acid-induced reactions involving flie double bonds of unsaturated fetty esters have been conducted by Metzger et al. (69-74) these have resulted in the production of a large number of functionalized, cyclic, and branched fetty ester derivatives (e.g., [14], [15]). The synthesis of methyl rac-2-dodecyl-cyclopentane carboxylate from methyl 2-iodo-18 1(6Z) is presented in Scheme 5. 

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