Hydroxyl protecting groups, asymmetric compounds

We now tum our attention to the C21-C28 fragment 158. Our retrosynthetic analysis of 158 (see Scheme 42) identifies an expedient synthetic pathway that features the union of two chiral pool derived building blocks (161+162) through an Evans asymmetric aldol reaction. Aldehyde 162, the projected electrophile for the aldol reaction, can be crafted in enantiomerically pure form from commercially available 1,3,4,6-di-O-benzylidene-D-mannitol (183) (see Scheme 45). As anticipated, the two free hydroxyls in the latter substance are methylated smoothly upon exposure to several equivalents each of sodium hydride and methyl iodide. Tetraol 184 can then be revealed after hydrogenolysis of both benzylidene acetals. With four free hydroxyl groups, compound 184 could conceivably present differentiation problems nevertheless, it is possible to selectively protect the two primary hydroxyl groups in 184 in... 

Therefore, the chiral cyanohydrins are valuable and versatile synthons as their single hydroxyl asymmetric centre is accompanied by at least one other chemical functionality. Thus with careful functional group protection, differential and selective chemical transformations can be performed. Such synthetic techniques lead to production of interesting bioactive compounds and natural products. These products include intermediates of j3-blockers 15 1117], j3-hydroxy-a-amino acids 16 [118],chiral crown ethers 17 [lll],coriolic acid 18 [120], sphingosines 19 [121], and bronchodilators such as salbutamol 20 [122] (Fig. 3). 

Derivatization of functional groups in a natural-product scaffold can also be effectively performed on the solid-phase. An example of this is the synthesis of a small compound collection (27-compounds) based on the tetrahydroquinoline scaffold. A chiral tetrahydroquinoline scaffold was synthesized in solution from 5-hydroxy-2-nitrobenzaldehyde (Scheme 4). The synthesis involved a key asymmetric aminohydroxylation step. This building block was anchored to the solid support with a Wang linker and diversity was introduced by selective deprotection and derivatization of the protected hydroxyl and amino substituents. 

An asymmetric synthesis of aminocyclopentitols 134-137 has been used in the synthesis of trehazolin via free-radical cycloisomerization of enantiomerically pure, alkyne-tethered oxime ethers derived from D-mannose (Scheme 17).84 Treatment of 2,3 5,6-di-(9-isopropylidene-D-mannofuranose (128)85 with ethynylmagnesium bromide gave compound 129, which underwent sequential one-pot acid hydrolysis plus diol cleavage to give 130, oximation of which afforded the radical precursor 131, in 41% overall yield from 129. The free hydroxyl group of 131 was protected as acetate 132 and tert-butyldimethylsilyl ether 133, which were isolated as inseparable... 

---