Dihydroxylations double diastereoselectivity

Asymmetric induction also occurs during osmium tetroxide mediated dihydroxylation of olefinic molecules containing a stereogenic center, especially if this center is near the double bond. In these reactions, the chiral framework of the molecule serves to induce the diastereoselectivity of the oxidation. These diastereoselective reactions are achieved with either stoichiometric or catalytic quantities of osmium tetroxide. The possibility exists for pairing or matching this diastereoselectivity with the face selectivity of asymmetric dihydroxylation to achieve enhanced or double diastereoselectivity [25], as discussed further later in the chapter. 

Double Diastereoselection in the Dihydroxylation Reaction. The dihydroxylation reaction of chiral nonracemic substrates using the cinchona-derived ligand leads to a matched and mismatched pair (eq 6) Kinetic resolution of several racemic secondary alcohols has also been examined. ... 

When dienones such as 55 are subjected to the epoxidation conditions the electron-poorer C=C double bond is selectively epoxidized. The other C=C bond can be functionalized further, for example, it can be dihydroxylated, as shown in the synthesis of the lactone 56 (Scheme 10.11) [82]. Stannyl epoxides such as 57 (Scheme 10.11, see also Table 10.8, R1 = n-Bu3Sn) can be coupled with several electrophiles [72], reduction of chalcone epoxide 58 and ring opening with alkyl aluminum compounds provides access to, e.g., the diol 59 and to phenylpropionic acids (for example 60). Tertiary epoxy alcohols such as 61 can be obtained with excellent diastereoselectivity by addition of Grignard reagents to epoxy ketones [88, 89]. 

Dihydroxylating Compounds with More than One Double Bond II—Diastereoselectivity... 

The route used in the conversion 100 ent-98 is shown in Scheme 10 and begins with the conversion of the former compound into the acetal 101 under standard conditions. Dihydroxylation of the non-chlorinated double-bond within the latter compound using the Upjohn conditions [50] provided the diol 102 (66%) in a completely diastereoselective fashion and this was protected as the corresponding di-MOM ether 103 (88%) using MOM chloride in the presence of sodium hydride. Reductive cleavage of the acetal unit within compound 103 was readily effected in a regioselective manner with DIBAl-H and the ensuing alcohol... 

Sulfoxide groups direct the dihydroxylation of a remote double bond in an acyclic system perhaps by prior complexation of the sulfoxide oxygen with osmium tetroxide (eqs 16 and 17). Chiral sulfoximine-directed diastereoselective osmylation of cy-cloalkenes has been used for the synthesis of optically pure di-hydroxycycloalkanones (eq 18). Nitro groups also direct the osmylation of certain cycloalkenes, resulting in dihydroxylation from the more hindered side of the ring. In contrast, without the nitro group the dihydroxylation proceeds from the less hindered side (eq 19). ... 

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