Simple and efficient Grignard procedures are reported for the syntheses of B-allenyl-10-(phenyl)-9-borabicyclo[3.3.2]decane (1) and its B-(gamma-trimethylsilylpropargyl) counterpart (2) in both enantiomeric forms. Both add selectively to ketones, providing propargyl- and alpha-silylallenyl 3-degree-carbinols, respectively (i.e., 6 (61-93% ee) and 9 (64-98% ee)). The air-stable boron byproduct is efficiently recovered and recycled back to either 1 or 2. The ozonolysis and bromination of 9 provide nonracemic alpha-hydroxy acids and gamma-bromopropynyl carbinols, respectively.
The synthesis of mixed borabicyclodecane (BBD)-derived 1,3-diborylpropenes (trans-1) is described. These new bimetallic reagents are effective for the selective asymmetric allylboration first of ketones (or ketimines) and second of aldehydes (or aldimines). Formed as a thermodynamic mixture of trans regioisomers from cis-1 through a series of 1,3-borotropic shifts, only trans-1 undergoes the monoallylation of ketones. After this single addition, this process is effectively shut down after the reaction of the 10-Ph-9-BBD portion in 1. Serving as a molecular gate, the rearranged 10-TMS-9-BBD trans-allylborane intermediate 11 reacts only after an aldehyde (or aldimine) is added. This allylation fixes the last two stereogenic centers of the 2-vinyl-1,3-diol stereotriad, ultimately resulting in 16 (or 1,3-amino alcohols) in 50-72% yield (>98% ee) as single observable diastereomers. These reagents 1 uniquely function as the equivalent of 1,1-bimetallic allylic reagents, adding sequentially first to ketones and second to aldehydes.
Asymmetric hydroboration of 1,3-cyclohexadiene with 4R produces the allylborane 5RR as essentially a single diastereomer (i.e., no observable 5RS), and its addition to representative aldehydes provides 9RS (52-75%) with excellent selectivity (94-99% ee). By contrast, a similar sequence with the 10-Ph-BBD reagent, 14R, results in a ca. 45:55 mixture of 15RR and 15RS. However, their addition to methyl ketones provides the corresponding 3°-homoallylic alcohols (18RS) with excellent selectivity (80-99% ee) but in low yields (15-52%) because 15RS is unreactive toward either allylboration or isomerization to 15RR. Thus, with 2 equiv of 15, the yield of 18 (R = Ph) is increased from 52% to 85%. Boranes 5SS and 15SS provide enantiomeric alcohols.
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