Stereocontrol, acyclic

Supression of olefin isomerization is critical for acyclic stereocontrol ... 

Recently, Charette et al. have also demonstrated this behavior in the stereoselective cyciopropanations of a number of enantiopure acyclic allylic ethers [47]. The high degree of acyclic stereocontrol in the Simmons-Smith cyclopropanation has been extended to synthesis several times, most notably in the synthesis of small biomolecules. Schollkopf et al. utilized this method in their syntheses of cyclopropane-containing amino acids [48 a, b]. The synthesis of a cyclopropane-containing nucleoside was also preformed using acyclic stereocontrol [48c]. 

It would be difficult to overestimate the role that the polyether antibiotics have played in the development of organic synthesis, particularly in the area of acyclic stereocontrol. These molecules have inspired many spectacular achievements in organic synthesis, achievements that have dramatically expanded the power and scope of the science. In fact, it would not be inaccurate to attribute much of our understanding about the factors controlling acyclic stereoselectivity for such fundamental processes as hydroboration,5 epox-... 

Oare, D. A., Stereochemistry of the Base-Promoted Michael Addition Reaction, 19, 227 Acyclic Stereocontrol in Michael Addition Reactions of Enamines and Enol Ethers, 20, 87 Okamoto, Yoshio, Optically Active Polymers with Chiral Recognition Ability, 24, 157. 

Acyclic stereocontrol has been a striking concern in modern organic chemistry, and a number of useful methods have been developed for stereoregulated synthesis of conformationally nonrigid complex molecules such as macrolide and polyether antibiotics. Special attention has therefore been paid to the aldol reaction because it constitutes one of the fundamental bond constructions in biosynthesis. 

A drawback of the Z enoates is usually lower reactivity, reflected in prolonged reaction times and higher reaction temperatures. This may be overcome by switching to more reactive enone systems. Thus, addition of the functionalized cyano-Gilman cuprate system 67 to Z enone 66 proceeded smoothly at low temperatures, with excellent acyclic stereocontrol at the /i-stereocenter [26, 27]. Stereocontrol upon... 

The conformational barriers in acyclic radicals are smaller than those in closed-shell acycles, with the barrier to rotation in the ethyl radical on the order of tenths of a kilocalorie per mole. The barriers increase for heteroatom-substituted radicals, such as the hydroxymethyl radical, which has a rotational barrier of 5 kcal/mol. Radicals that are conjugated with a n system, such as allyl, benzyl, and radicals adjacent to a carbonyl group, have barriers to rotation on the order of 10 kcal/mol. Such barriers can lead to rotational rate constants that are smaller than the rate constants of competing radical reactions, as was demonstrated with a-amide radicals, and this type of effect permits acyclic stereocontrol in some cases. "... 

A systematic study of methyl ketone aldol additions with a-alkoxy and o ,/5-bisalkoxy aldehydes has been undertaken, under non-chelating conditions.130 With a single a-alkoxy stereocentre, diastereoselectivity generally follows Cornforth/polar Felkin-Anh models. With an additional /5-alkoxy stereocentre, 7r-facial selectivity is dramatically dependent on the relative configuration at a- and /3-centres if they are anti, high de results, but not if they are syn. A model for such acyclic stereocontrol is proposed in which the /5-alkoxy substituent determines the position in space of the a-alkoxy relative to the carbonyl, thus determining the n-facial selectivity. 

With the aid of the o-DPPB functionality a substrate-directed diastereoselective hydroformylation of methallylic alcohol derivatives could be achieved with high levels of acyclic stereocontrol to provide the syn-aldehydes 6 as the major diastereomers [10]. 

Michael Addition Reactions of Enamines and Enol Ethers, Acyclic Stereocontrol... 

Despite the development of various intermolecular radical addition methods, those studies have rarely accommodated additional functionality, our discovery of the manganese-mediated photolysis conditions notwithstanding. Prior to that discovery, we began to elaborate an alternative strategy which employs temporary tethers ([115, 116] reviews of silicon-tethered reactions [117-120]) (silyl ether or acetal linkages) linking radical and acceptor. In this scenario the C-C bond is constructed via cyclization, in which internal conformational constraints can control diaster-eoselectivity. The tether itself would be converted to useful functionality upon cleavage, and once the tether is cleaved the net result may be considered as formal acyclic stereocontrol. ... 

Acyclic stereocontrol remains a challenging problem in synthesis. While enan-tiomerically pure sulfoxides are valuable synthetic intermediates for enantiocon-trolled carbon-carbon bond formation by conjugate addition in cyclic cases, their usefulness for such alkylations in acyclic cases has not been firmly established. Moreover, most sulfoxide directed alkylation protocols utilize the valuable sulfur auxiliary just once, which limits the synthetic versatility of the process. Marino et al. have recently reported SN2 displacements of acyclic allylic mesyloxy vinyl sulfoxides with organocopper reagents (Scheme 10).33 In addition to the excellent observed stereoselectivities, the newly created chiral center is adjacent to a vinyl sulfoxide which should allow for subsequent chirality transfer operations. On treatment with organocopper nucleophiles, both sulfoxide diastereoisomers 40b and 43b underwent SN2 displacements with high Z selectivity to yield products 42b and 45b, respectively (Table 2). The oxidation state on the sulfur was varied... 

Acyclic Stereocontrol in Michael Addition Reaction of Enamines and Enol... 

The key of this success lies in the opening of the synthesis in which Roush and Wada utilize the various possibilities offered by the buta-diene-Fe(CO), chemistry for acyclic stereocontrol. They thus impressively demonstrate that the use of transition metal 7r-complexes as synthetic building blocks opens new and powerful strategies for the synthesis of complex target molecules. 

A diastereoselective formal addition of a 7ra i-2-(phenylthio)vmyl moiety to a-hydroxyhydrazones through a radical pathway is shown in Scheme 2.29. To overcome the lack of a viable intermolecular vinyl radical addition to C=N double bonds, not to mention a reaction proceeding with stereocontrol, this procedure employs a temporary silicon tether, which is used to hold the alkyne unit in place so that the vinyl radical addition could proceed intramolecularly. Thus, intermolecular addition of PhS" to the alkyne moiety in the chiral alkyne 161 leads to vinyl radical 163, which cyclizes in a 5-exo fashion, according to the Beckwith-Houk predictions, to give aminyl radical 164 with an a 7z-arrangement between the ether and the amino group. Radical reduction and removal of the silicon tether without prior isolation of the end product of the radical cyclization cascade, 165, yields the a-amino alcohol 162. This strategy, which could also be applied to the diastereoselective synthesis of polyhydroxylated amines (not shown), can be considered as synthetic equivalent of an acetaldehyde Mannich reaction with acyclic stereocontrol. 

A synthetic route to Q, /i-disubstituted cycloalkenones via a four step one-pot synthesis employed (4a) for RCM and then oxidative rearrangement giving products in low to moderate overall yields as a way to access estrogen receptor ligand tetrahydrofluorenones (equation 29)3 Crimmins reported an asymmetric aldol-oleftn metathesis approach to the synthesis of functionalized cyclopentenes exploiting the acyclic stereocontrol of the aldol reaction with efficient (2a) catalyzed RCM (equation 30)3 ... 

This new concept for diastereoface differentiation 95 in the osmylation reaction seems quite promising and will undoubtedly challenge organic chemists during the future development of newer methods for cyclic and acyclic stereocontrol. 

Mikami, K. Shimizu, M. Zhang, H. C. Maryanoff, B. E. Acyclic Stereocontrol Between Remote Atom Centers via Intramolecular and Intermolecular Stereo-Communication, Tetrahedron 2001, 57, 2917-2951. 

By constructing rigid endocyclic imines/imine derivatives (either isolated or generated in situ) some of the problems associated with acyclic stereocontrol can be avoided. The addition of organometallic reagents to 3-thiazolines (16) or tiie putative piperidine intermediate (17) provides excellent stereocontrol. 

Heathcock, C. H. Acyclic stereocontrol through the aldol condensation. Science 1981, 214, 395 00. 

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