Aldols boron aldol reaction

Boron aldol reactions have been used to stereoselectively construct the anti-3-hydroxy-2-methylcarbonyl system from carboxylate esters,58 and to combine a-hetero-substituted thioacetates with aldehydes or silyl imines enantio- and/or diastereo-selectively.59... 

This procedure illustrates a general method for the preparation of crossed aldols. The aldol reaction between various silyl enol ethers and carbonyl compounds proceeds smoothly according to the same procedure (see Table I). Sllyl enol ethers react with aldehydes at -78°C, and with ketones near 0°C. Note that the aldol reaction of sllyl enol ethers with ketones affords good yields of crossed aldols which are generally difficult to prepare using lithium or boron enolates. Lewis acids such as tin tetrachloride and boron trifluoride etherate also promote the reaction however, titanium tetrachloride is generally the most effective catalyst. 

German, C. Vulpetti, A. Pain, G. Highly enantio- and diastereoselective boron aldol reactions of a-heterosubstituted fhioacetates with aldehydes and silyl imines. Tetrahedron 1997, 53, 5909-5924. 

In the synthesis of RK-397 (18), Denmark and Fujimori prepared an anft -diol using the Evans-Chapman-Carreira protocol5 (Scheme 4.2f). The (3-hydroxy ketone 21, obtained by a diastereoselective boron aldol reaction between 19 and 20, was reduced with tetramethylammonium triacetoxyborohydride to afford the anti-diol derivative 22 in greater than 19 ldiastereoselectivity. 

The boron-aldol reaction of the p-methoxyben-zyl(PMB)-protected methylketone 16 proceeds with excellent 1,5-anti-selectivity (Scheme 4). In cases where the asymmetric induction is lower it may be improved by a double stereodifferential aldol reaction with chiral boron ligands [7]. The reason for this high stereoselectivity is currently unknown. Ab initio calculations suggest the involvement of twisted boat structures rather than chair transition structures [6]. 

B. The boron aldol reaction. Into a dry, 2-L flask equipped with a large magnetic stirring bar 1s Introduced 21.2 g (0.091 mol) of the acylated oxazolidinone. The flask is sealed with a rubber septum and swept with nitrogen. The solid is dissolved in 200 mL of anhydrous dichloromethane (Note 6), which is introduced via syringe. A thermometer is inserted through the... 

For the preparation of the imide 2, use Bu2BOTf and EtjN (CH2CI2,0 °C). The boron aldol reaction often benefits from a work-up with H2O2, to cleave the boron-oxygen bond and release the alcohol product. 

Altogether, four asymmetric, a r/-selective, boron aldol reactions were employed in this highly convergent synthesis (26 steps longest linear sequence, 5.3% overall yield), which ensured a high level of stereocontrol throughout. 

Altogether, our total synthesis of (+)-discodermolide uses four asymmetric boron aldol reactions and proceeds in 27 steps and 7.7% overall yield (for the longest linear sequence starting from commercial methyl (S)-3-hydroxy-2-methylpropionate). 

Typical Procedure for syn-Selective Asymmetric Boron Aldol Reaction (Eq. (17)) [13]... 

SCHEME 2.109 Evans auxiliary performing highly iyn-selective asymmetric boron aldol reaction. 

SCHEME 10.34. Transition state of titanium or boron aldol reaction between aldehyde and enolate with a-chirahty. 

Mickel, S.J., Daeffler, R and Prikoszovich, W. (2005) A study of the Paterson boron aldol reaction as used in the large-scale total synthesis of the anticancer marine natural product (+)-discode-rmolide. Org. Process Res. Dev., 9,113-120. 

Here we will illustrate the method using a single example. The aldol reaction between an enol boronate and an aldehyde can lead to four possible stereoisomers (Figure 11.32). Many of these reactions proceed with a high degree of diastereoselectivity (i.e. syn anti) and/or enantioselectivity (syn-l syn-Tl and anti-l anti-lT). Bernardi, Capelli, Gennari,... 

Bernard A, A M CapeUi, A Comotti, C Gannari, J M Goodman and I Paterson 1990. Transltion-St Modeling of the Aldol Reaction of Boron Enolates A Force Field Approach. Journal of Orga Chemistry 55 3576-3581. 

Ketones, in which one alkyl group R is sterically demanding, only give the trans-enolate on deprotonation with LDA at —12°C (W.A. Kleschick, 1977, see p. 60f.). Ketones also enolize regioseiectively towards the less substituted carbon, and stereoselectively to the trans-enolate, if the enolates are formed by a bulky base and trapped with dialkyl boron triflates, R2BOSO2CF3, at low temperatures (D A. Evans, 1979). Both types of trans-enolates can be applied in stereoselective aldol reactions (see p. 60f.). 

Stereoselectivities of 99% are also obtained by Mukaiyama type aldol reactions (cf. p. 58) of the titanium enolate of Masamune s chired a-silyloxy ketone with aldehydes. An excess of titanium reagent (s 2 mol) must be used to prevent interference by the lithium salt formed, when the titanium enolate is generated via the lithium enolate (C. Siegel, 1989). The mechanism and the stereochemistry are the same as with the boron enolate. 

Table 8. Aldol Reaction of the Amide Boron Enolates CF3CF=C[0B (C4H9)2]N(C2Hs)2 with Aldehydes [9]...

A key step in the synthesis of the spiroketal subunit is the convergent union of intermediates 8 and 9 through an Evans asymmetric aldol reaction (see Scheme 2). Coupling of aldehyde 9 with the boron enolate derived from imide 8 through an asymmetric aldol condensation is followed by transamination with an excess of aluminum amide reagent to afford intermediate 38 in an overall yield of 85 % (see Scheme 7). During the course of the asymmetric aldol condensation... 

Other reactions adapted from asymmetric aldol reactions suffer in comparison from the fact that (probably due to the strength of the boron-nitrogen bond) boron-mediated processes generally yield the intermediate 2-halo-3-aminoester products rather than aziridine products directly [51]. 

In contrast, highly stereoselective aldol reactions are feasible when the boron etiolates of the mandelic acid derived ketones (/ )- and (5,)-l- t,r -butyldimethylsiloxy-l-cyclohexyl-2-butanone react with aldehydes33. When these ketones are treated with dialkylboryl triflate, there is exclusive formation of the (Z)-enolates. Subsequent addition to aldehydes leads to the formation of the iyn-adducts whose ratio is 100 1 in optimized cases. 

Conducting the aldol reaction at temperatures below —78 "C increases the diastereoselectivity, but at the cost of reduced yields45. Transmetalation of the lithium enolate 2 a by treatment with diethylaluminum chloride generated an enolate species that provided high yields of aldol products, however, the diastereoselectivity was as low as that of the lithium species45. Pre treatment of the lithium enolate 2a with tin(II) chloride, zinc(II) chloride, or boron trifluoridc suppressed the aldol reaction and the starting iron-acyl complex was recovered. 

The boron enolates derived from (5)-4-silylated 2,2-dimethyl-l,3-dioxan-5-one undergo anti diastereoselective aldol reactions which provide access to protected oxopolyols of high stereochemical integrity <96SYN1095>. 

Aldol Reactions of Boron Enolates. The matter of increasing stereoselectivity in the addition step can be addressed by using other reactants. One important version of the aldol reaction involves the use of boron enolates.15 A cyclic TS similar to that for lithium enolates is involved, and the same relationship exists between enolate configuration and product stereochemistry. In general, the stereoselectivity is higher than for lithium enolates. The O-B bond distances are shorter than for lithium enolates, and this leads to a more compact structure for the TS and magnifies the steric interactions that control stereoselectivity. 

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