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Isopinocampheyl

The synthesis of 10 features the SN2 displacement of the allylic acetate with migration of R2 from the ate complex6. Precursors 9 are prepared by the hydroboration of 3-acetoxy-l-alkynes that are available with very high enantiomeric purity via the asymmetric reduction of the corresponding l-alkyn-3-ones, and a substantial degree of asymmetric induction occurs in the conversion of 9 to 10. Best results, based on the enantioselectivity of reactions of 10 with aldehydes, are obtained when R2 is a bulky group such as isopinocampheyl (79 85 % ee)6. The yields of reactions of 10 with aldehydes are 62-76%. [Pg.314]

Isopinocampheyl(l-isopinocampheyl-2-octenyl)borinic acid (1), available with a diastereomer-ic purity of approximately 80 85% de, reacts smoothly with aldehydes at —15 °C in tetrahy-drofuran to provide a homoallylic alcohol with 79-85% ee after oxidative workup (30% hydrogen peroxide, 40 °C)6. [Pg.326]

Improved methods for the preparation of reagents such as isopinocampheyl(l-isopinocam-pheyl-2-alkenyl)borinic acids will certainly lead to a more enantioselective synthesis of anti-homoallylic alcohols, since the enantiomeric purity of the reagent is the only significant limitation to the synthetic utility of this reagent system. [Pg.326]

However, if the isopinocampheyl residue is used instead of achiral ligands (such as butyl or cyclohexyl) in the enolborinate, the diastereoselectivity is slightly improved (93 7). Thus, the combination of substrate-induced and auxiliary-induced stereoselectivity has only a marginal effect in this case56. [Pg.473]

Several alkylboranes are available in enantiomerically enriched or pure form and can be used to prepare enantiomerically enriched alcohols and other compounds available via organoborane intermediates.196 One route to enantiopure boranes is by hydroboration of readily available terpenes that occur naturally in enantiomerically enriched or pure form. The most thoroughly investigated of these is bis-(isopinocampheyl)borane (Ipc)2BH), which can be prepared in 100% enantiomeric purity from the readily available terpene a-pinene.197 Both enantiomers are available. [Pg.347]

Chloroboranes have also been found useful for enantioselective reduction. Di-(isopinocampheyl)chloroborane,144 (Ipc)2BCl, and /-butyl (isopinocamphcylj... [Pg.415]

P-Allyl-to-(isopinocampheyl)borane exhibits high stereoselectivity in reactions with chiral a-substituted aldehydes.40 The stereoselectivity is reagent controlled, in that there is no change in stereoselectivity between the two enantiomeric boranes in reaction with a chiral aldehyde. Rather, the configuration of the product is determined by the borane. Both enantiomers of (Ipc)2BH are available, so either enantiomer can be prepared from a given aldehyde. [Pg.799]

Scheme 2.34. Preparation of chiral alkylcopper reagents (Ipc = isopinocampheyl). Scheme 2.34. Preparation of chiral alkylcopper reagents (Ipc = isopinocampheyl).
Asymmetric reduction of ketones using Alpine-borane . Alpine-borane = B-isopinocampheyl-9-borabicyclo[3.3.1]nonane. [Pg.386]

Addition of alane and borane to alkenes affords a host of alkylated alanes and boranes with various reducing properties (and sometimes bizarre names) diisobutylalane (Dibal-H ) [104], 9-borabicyclo[3.3.1]nonane (9-BBN) (prepared from borane and 1,5-cyclooctadiene) [705], mono- [106,107] and diiso-pinocampheylborane (B-di-3-pinanylborane) (both prepared from borane and optically active a-pinene) [108], isopinocampheyl-9-borabicyclo[3.3.1 Jnonane alias B-3-pinanyl-9-borabicyclo[3.3.1]nonane (3-pinanyl-9-BBN) (prepared from 9-borabicyclo [3.3.1]nonane and a-pinene) [709], NB-Enanthrane prepared from 9-borabicyclo[3.3.1]nonane and nopol benzyl ether) [770] and others. ... [Pg.15]

To improve the levels of selectivity in additions to chiral aldehydes, it is possible to resort to the tactic of double diastereoselection with the use of chiral allylic boranes and boronates (see section Double Diastereoselection ). Bis(isopinocampheyl) allylic boranes and the tartrate allylic boronates (see following section), in particular, are very useful in the synthesis of polypropionate natmal products by reaction with a-methyl and a-alkoxy functionalized aldehydes. [Pg.29]

Chiral Dialkylboranes. Several allylic boranes have been developed as chiral auxiliary reagents (Fig. 5). The introduction of terpene-based reagents such as 12 and 64-68 has been pioneered by H.C. Brown, and the most popular class remains the bis(isopinocampheyl) derivatives (structures 12, 64-66). A wide variety of substituted analogs have been reported, including the popular crotylboranes but also a number of other reagents bearing heteroatom-... [Pg.33]

The enantioselectivity of these reagents is explained by comparison of transition structures 72 and 73 shown in Scheme 7. The disfavored transition structure 73 leading to the minor enantiomer displays a steric interaction between the methylene of the allylic unit and the methyl group of one of the pinane units. Unlike the tartrate boronates described above, the directing effect of the bis(isopinocampheyl) allylic boranes is extremely powerful, giving rise to high reagent control in double diastereoselective additions (see section on Double Diastereoselection ). [Pg.34]

Scheme 7. Model for absolute stereoinduction in additions of (—)-bis(isopinocampheyl) allylic boranes to aldehydes. Scheme 7. Model for absolute stereoinduction in additions of (—)-bis(isopinocampheyl) allylic boranes to aldehydes.
The bis(isopinocampheyl)borane reagents described in the sections on enantioselective additions have found extensive use in the total synthesis of complex, bioactive natural products. A synthesis of the potent anticancer agent epothilone... [Pg.55]

The powerful directing effect of bis(isopinocampheyl) allylic boranes has been put to great use in the context of several applications of double diaster-ereoselective allylations in the total synthesis of natural products. As discussed in a previous section, the Brown allylation can be exploited to overcome the stereodirecting effect of chiral a-stereogenic aldehydes, including a-aUcoxy substituted ones. Thus, the simple allylation of aldehyde 154 provides as major product the desired diastereomer needed towards a total synthesis of brasilenyne (Scheme 14). The yield and stereoselectivity is even increased to over 97 3 under the low-temperature, magnesium-free conditions described before. [Pg.57]

Although the class of bis(isopinocampheyl)allylboranes often leads to better levels of double diastereoselectivity, the basic oxidative work-up required in these allylations is not compatible with all substrates. This is true for the crotylation of the aldehyde derived from the terminal alkene of 168 (Scheme 18),... [Pg.61]

Allyl-bis(isopinocampheyl)borane exhibits high stereoselectivity in reactions with chiral a-substituted aldehydes.39... [Pg.561]

See other pages where Isopinocampheyl is mentioned: [Pg.323]    [Pg.809]    [Pg.311]    [Pg.314]    [Pg.791]    [Pg.362]    [Pg.565]    [Pg.668]    [Pg.12]    [Pg.34]    [Pg.41]    [Pg.46]    [Pg.50]    [Pg.56]    [Pg.59]    [Pg.64]    [Pg.73]    [Pg.87]    [Pg.326]    [Pg.6]   
See also in sourсe #XX -- [ Pg.258 , Pg.292 ]



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Isopinocampheyl: chiral auxiliary group

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