Alcohol chiral allylic

Sharpless epoxidations can also be used to separate enantiomers of chiral allylic alcohols by kinetic resolution (V.S. Martin, 1981 K.B. Sharpless, 1983 B). In this procedure the epoxidation of the allylic alcohol is stopped at 50% conversion, and the desired alcohol is either enriched in the epoxide fraction or in the non-reacted allylic alcohol fraction. Examples are given in section 4.8.3. 

The remarkable stereospecificity of TBHP-transition metal epoxidations of allylic alcohols has been exploited by Sharpless group for the synthesis of chiral oxiranes from prochiral allylic alcohols (Scheme 76) (81JA464) and for diastereoselective oxirane synthesis from chiral allylic alcohols (Scheme 77) (81JA6237). It has been suggested that this latter reaction may enable the preparation of chiral compounds of complete enantiomeric purity cf. Scheme 78) ... 

Sharpless and Masumune have applied the AE reaction on chiral allylic alcohols to prepare all 8 of the L-hexoses. ° AE reaction on allylic alcohol 52 provides the epoxy alcohol 53 in 92% yield and in >95% ee. Base catalyze Payne rearrangement followed by ring opening with phenyl thiolate provides diol 54. Protection of the diol is followed by oxidation of the sulfide to the sulfoxide via m-CPBA, Pummerer rearrangement to give the gm-acetoxy sulfide intermediate and finally reduction using Dibal to yield the desired aldehyde 56. Homer-Emmons olefination followed by reduction sets up the second substrate for the AE reaction. The AE reaction on optically active 57 is reagent... 

Hydroxy group directivity in the epoxidation of chiral allylic alcohols 99ACR703. 

The emergence of the powerful Sharpless asymmetric epoxida-tion (SAE) reaction in the 1980s has stimulated major advances in both academic and industrial organic synthesis.14 Through the action of an enantiomerically pure titanium/tartrate complex, a myriad of achiral and chiral allylic alcohols can be epoxidized with exceptional stereoselectivities (see Chapter 19 for a more detailed discussion). Interest in the SAE as a tool for industrial organic synthesis grew substantially after Sharpless et al. discovered that the asymmetric epoxidation process can be conducted with catalytic amounts of the enantiomerically pure titanium/tartrate complex simply by adding molecular sieves to the epoxidation reaction mix-... 

The steering effect of the hydrogen bonding was applied to a highly diastereose-lective dioxetane formation from a chiral allylic alcohol (Scheme 21) [110]. 

In 2004, Yang and Tseng reported the synthesis of a series of new chiral amino thiol ligands derived from L-valine, which were further employed (1 mol%) in the enantioselective alkenylzinc addition to aldehydes, providing an efficient route for chiral ( )-allylic alcohols with enantioselectivities of up to >99% ee, as shown in Scheme 3.67. ... 

To control the stereochemistry of 1,3-dipolar cycloaddition reactions, chiral auxiliaries are introduced into either the dipole-part or dipolarophile. A recent monograph covers this topic extensively 70 therefore, only typical examples are presented here. Alkenes employed in asymmetric 1,3-cycloaddition can be divided into three main groups (1) chiral allylic alcohols, (2) chiral amines, and (3) chiral vinyl sulfoxides or vinylphosphine oxides.63c... 

Tandem transesterification and diastereoselective intramolecular 1,3-dipolar cycloaddition of a-methoxycarbonylnitrones with chiral allyl alcohols give polycyclic compounds in one step with high stereoselectivity (Scheme 8.14).76 Transition state Ain Scheme 8.14 is more favorable than B because B has severe steric interaction (allylic 1,3-strain).77... 

Photocyclization of benzophenone with chiral allylic alcohols, 9 (R = Me, Et, Pri, and Bu1) is hydroxyl group-directed to give regioselectivity and t/zreo-diastereoselectivity in the formation of mainly 10 <00JA2958>. 

An interesting variant involves the use of an allylic alcohol as the alkene component. In this process, re-oxidation of the catalyst is unnecessary since the cyclization occurs with /Uoxygen elimination of the incipient cr-Pd species to effect an SN2 type of ring closure. Both five- and six-membered oxacycles have been prepared in this fashion using enol, hemiacetal, and aliphatic alcohol nucleophiles.439,440 With a chiral allylic alcohol substrate, the initial 7r-complexation may be directed by the hydroxyl group,441 as demonstrated by the diastereoselective cyclization used in the synthesis of (—)-laulimalide (Equation (120)).442 Note that the oxypalladation takes place with syn-selectivity, in analogy with the cyclization of phenol nucleophiles (1vide supra). 

Selective vinylation of aldehydes lags far behind allylation as a synthetic method despite importance of chiral allylic alcohols in synthesis. Vinylmetal species are generally much less nucleophilic that their allyl counterparts, and some vinylmetallic species, such as organotitanium, run into stability issues not encountered in alkylmetals.92... 

Predictable absolute stereochemistry Thus far, when dealing with a pro-chiral allylic alcohol substrate, no exception to the rules laid down in Figure 4-1 has been observed. 

Acid-induced mcemization and isomerization of chiral allylic alcohols. Bimolecular nucleophilic displacements in allylic compounds are known to proceed via the four possible pathways shown in Scheme 19. 

An instructive strategy to cyclize acyclic precursors to lactones was developed by Mulzer et al. (Scheme 7) [19]. The lactone 46 was formed via a halo-lactonization-dehalogenation [20] sequence from precursor 45, which in turn was build up by a Claisen rearrangement from the chiral allylic alcohol... 

A complementary paper was reported soon after by Adam, Bach and coworkers where eight transition structures for the epoxidation of the chiral allylic alcohol (Z)-3-methyl-3-penten-2-ol with peroxyformic acid were computed by the B3LYP density functional method with 6-31G(d) and 6-31G(d,p) basis sets. The four lowest-energy transition structures and their respective prereaction clusters were fuUy re-optimized by employing 6-31H-G(d,p) and correlation-consistent polarized valence triple- cc-pZTV basis sets. 

Singlet oxygen affords a variety of regio and diastereoselective reactions with chiral allylic alcohols amines - (e.g. substrate 161, Scheme 58) and chiral cyclohexadienes - that are useful for synthetic transformations. For example, the photooxygenation of a chiral allylic alcohol was used recently as the key step in the total syntheses of plakorin 162 and ewawfio-chondrilin (Scheme 58). If the photooxidation... 

Adam and coworkers have carried out several studies aimed at elucidating the geometry of the transition-state structure for the allylic alcohol epoxidation using chiral substrates as stereochemical probe (equation 38). The threo.erythro diasteroselec-tivities for the epoxidation of a set of methyl-substituted chiral allylic alcohols with A ... 

When substrates such as ot-chiral allylic alcohols are used, reactions with achiral nitrile oxides are affected both by alkoxide formation and the use of wellcoordinating cations (136-138). In some cases, hydrogen bonding with the nitrile oxide s oxygen atom can also play an important role (135). 

The carbo- and hetero-Diels-Alder reactions are excellent for the constmction of six-membered ring systems and are probably the most commonly applied cycloaddition. The 1,3-dipolar cycloaddition complements the Diels-Alder reaction in a number of ways. 1,3-Dipolar cycloadditions are more efficient for the introduction of heteroatoms and are the preferred method for the stereocontrolled constmction of five-membered heterocycles (1 ). The asymmetric reactions of 1,3-dipoles has been reviewed extensively by us in 1998 (5), and recently, Karlsson and Hogberg reviewed the progress in the area from 1997 and until now (6). Asymmetric metal-catalyzed 1,3-dipolar cycloadditions have also been separately reviewed by us (7-9). Other recent reviews on special topics in asymmetric 1,3-dipolar cycloadditions have appeared. These include reactions of nitrones (10), reactions of cyclic nitrones (11), the progress in 1996-1997 (12), 1,3-dipolar cycloadditions with chiral allyl alcohol derivatives (13) and others (14,15). 

Asymmetric eliminations of mew-configurated epoxides to give chiral allyl alcohols may most successfully be achieved using the chiral lithium amides which are also successful for the asymmetric deprotonation of ketones (see previous section). Problems in interpretation of asymmetric induction are also similar to those found in deprotonation of the ketones finding the optimal chiral lithium amide and reaction parameters remains largely empirical. 

At the same time and in the years to follow, several other groups reported the observation of high selectivities in the Pd-catalyzed resolution of racemic substrates [6]. The kinetic resolution depicted in Scheme 2.1.4.2 gives access to both the enantio-enriched allylic acetate and sulfone. Because of the many applications chiral allylic alcohols and allylic sulphur derivatives have found in the synthesis... 

The diastereoselective cyclopropanation of acyclic allylic alcohols is a very useful synthetic transformation. It was recognized early on by Pereyre and coworkers that the cyclopropanation of Z-substituted chiral allylic alcohol was highly syn selective (equation 58) °. It was later shown that most zinc carbenoids react with these substrates with high syn stereocontrol. 

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