Allylic alcohols hydroboration

Hydrogenation of olefins, enols, or enamines with chiral tVilkinson type catalysts, e.g., Noyort hydrogenation. Hydroboration of olefins with chiral boranes. Sharpless epoxi-dation of allylic alcohols. 

Catalyzed hydroboration has proven to be valuable in controlling the stereoselectivity of hydroboration of functionalized alkenes.169 For example, allylic alcohols... 

Wilkinson s catalyst has also been utilized for the hydroboration of other alkenes. Sulfone derivatives of allyl alcohol can be hydroborated with HBcat and subsequently oxidized to give the secondary rather than primary alcohol. This reactivity proves to be independent of substituents on the sulfur atom.36 Similarly, thioalkenes undergo anti-Markovnikoff addition to afford a-thioboronate esters.37 The benefits of metal-catalyzed reactions come to the fore in the hydroboration of bromoalkenes (higher yields, shorter reaction times), although the benefits were less clear for the corresponding chloroalkenes (Table 3).38,39 Dienes can be hydroborated using both rhodium and palladium catalysts [Pd(PPh3)4] reacts readily with 1,3-dienes, but cyclic dienes are more active towards [Rh4(CO)i2].40... 

As expected, allylic alcohols and ethers afford v/c-diol derivatives upon hydroboration. However, in the presence of Wilkinson s catalyst, a reverse regiochemistry for the hydroboration is observed [108]. There is the possibility that boron, rather than hydrogen, is transferred from the metal to the olefin. In other words, the boron acts as a donor. 

Albert S.C. Chun of the Hong Kong Polytechnic University reports (J. Org. Chem. 68 1589, 2003) two important transformations. The three-component (Mannich) condensation of 10 with 11 and 12 proceeds with high diastereoselectivity, to give the amino alcohol 13. Hydroboration of the alkyne 14 followed by transmetalation of the intermediate vinyl borane gives a zinc species, which under catalysis by the easily-prepared 3-naphthol 13 adds to aromatic and branched aldehydes with high . The product allylic alcohols are useful intermediates for organic synthesis. 

Hydroboration-oxidation of alkenes 5-18 Addition of organometallic compounds to unsaturated alcohols 5-20 Addition of CH, and H to allylic alcohols... 

Hydroboration of alkenes1 (15, 91). The Rh(I)-catalyzed hydroboration provides a highly diastereoselective reaction in a synthesis of a poly ether antibiotic. Thus the derivative (1) of an acyclic allylic alcohol is converted to the primary alcohol 2 by hydroboration with catecholborane (CB) catalyzed by ClRh[P(C6H5)3]3 with 94 6 selectivity. Note that hydroboration of 1 with disiamylborane (12, 484) proceeds with the opposite selectivity at Cio (8 92). 

These bulkier boranes enhance the regio selectivity of hydrobora tion of trisubstituted alkenes in particular and may also lead to high diastereoselectivity when there is a stereogenic centre next to the alkene. In this next examplej an allylic alcohol is hydroborated with thexyl borane. Oxidation reveals complete regioselectivity and a 9 1 stereoselectivity in favour of hydroboration on the same side as the OH group. 

In contrast to the dihydroxylations, the hydroboration of allylic alcohols takes place without an inside alkoxy effect in the sense 5.132 with the oxygen atom treated as the medium-sized group. It is probably significant that the inside alkoxy effect is most noticeable with reagents which are relatively electrophilic in nature, and not with boranes, which are only mildly electrophilic. 

Straightforward is the stereoselective introduction of two oxygen functionalities onto carbon-carbon double bonds, as represented by the Sharpless epoxidation4 or osmium tetroxide oxidation of allyl alcohols.5 An alternative route may be envisioned by anti-Markovnikov hydration of enol ether derivatives, as in the present method, but such an approach has so far been rarely studied. The only other reported method is hydroboration which affords syn/anti ratios in the range of 83/17 to 3/97 in essentially the same systems as those examined in this procedure. The method described here is a highly stereoselective route to 2,3-syn isomers of 1,2,3-triol skeletons from a-hydroxy enol ethers. 

Stereoselective hydroboration of allylic alcohols. Acyclic secondary ally lie alcohols of the types 1 and (E)- and (Z)-2 undergo hydroboration stereoselectively to yield threo-, 3-dioh (3). Highest t/ireo-selectivity in hydroboration of 1 is obtained using 9-... 

The hydroboration of acetylenes (3) with diisopinocampheylborane (IpC)2BH in THF led after refunctionalisation and transesterification to the olefins (4a, b, c) isolated in good yields. Monooxidation with mCpBA led to the sulfoxide (4d) whereas the sulfone (4e) was obtained with two equivalents of mCpBA. The same sulfone (4e) could also be obtained in an excellent overall yield by radical addition of phenylsulfonyl iodide to the pinacol ester of vinylboronic acid followed by a dehydroiodination in the presence of Et2N (87 % overall yield). The carboxylic ester (4a) could be transformed into the corresponding carboxylic acid (4f) (79 % yield) 11 which led to the acid chloride (4g) by treatment with freshly distilled thionyl chloride at 0°C (91 % yield), p-keto vinylboronates are easily accessible by oxidation of the corresponding protected allylic alcohol according to the following scheme ... 

In metal-catalyzed hydroborations, the addition is controlled by the catalyst and may result in different regio- and stereoselectivity compared to the uncatalyzed process. This has been observed for additions to styrenes30, allylic alcohols, and amines31,32. However, these directive effects are not yet fully understood33. 

Diastereoselective rhodium-catalyzed hydroborations of allylic alcohol derivatives give results complementary to those observed in the uncatalyzed reaction with 9-Bombicyclo[3.3.1]nonane. The syn selectivity of the catalyzed reaction increases as the bulk of the R group increases (syn anri = 79 21 for R = TBDPS) (eq 9) ... 

The enantioselective total synthesis of (-)-cassine was accomplished in the laboratory of H. Makabe." The synthetic sequence involved a key, highly diastereoselective PdCi2-cataiyzed cyciization of an amino allylic alcohol. The cyclic product was then subjected to hydroboration with 9-BBN followed by oxidation to afford the desired primary alcohol, which was converted to (-)-cassine. 

Conjugate addition of the complete allylic alcohol fragment is possible with the mixed cuprate reagents 33 prepared by asymmetric reduction (chapter 26) of acetylenic ketones 29 to give the alcohols 30, protection as a silyl ether 31 and hydroboration-iodination. Lithiation and reaction with hexynyl copper (I) gives the mixed cuprate 33 from which the less stable anion is transferred selectively to an enone.3 This approach has been widely used in the synthesis of prostaglandins. 

Hydroboration of the C-C unsaturated bond may be a possible side reaction in the reduction of a,P-unsatuxated ketones. However, in many cases, some ox-azaborolidines successfully catalyze the selective reduction of ketone carbonyls (Scheme 6). The borane reduction of 2-methylnon-l-en-3-one with oxazaborolidine 45 showed a clean conversion to the allylic alcohol (98%, 92% ee S) [82]. The same catalyst [83] and 4b [84] were effective for the reduction of a,P-ynones [83]. 

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