Homoallylic side chain

In the laboratory of B.M. Trost, a modular approach toward the total syntheses of furaquinocins was developed. To introduce the homoallylic side chain in a diastereoselective fashion, they utilized the Sakurai allylation reaction. During their studies they found that the highest diastereoselectivity can be achieved using 1 equivalent of TiCU at room temperature. Application of other Lewis acids such as BF3 OEt2 gave the product with lower selectivity. Attempts to perform the allylation using catalytic amounts of Lewis acids such as FeCIs or Sc(OTf)s led to no conversion. The resulting homoallylic alcohol served as a common intermediate toward the syntheses of both furaquinocin A and B. 

A convergent total synthesis of 15-membered macrolactone, (-)-amphidinolide P was reported by D.R. Williams and coworkers.In their approach, they utilized the Sakurai aiiyiation to introduce the C7 hydroxyl group and the homoallylic side chain. The transformation was effected by BF3-OEt2 at -78 °C to provide the homoallylic alcohol as a 2 1 mixture of diastereomers. The desired alcohol proved to be the major diastereomer, as it resulted from the Felkin-Ahn controlled addition of the allylsilane to the aldehyde. The minor diastereomer was converted into the desired stereoisomer via a Mitsunobu reaction. 

Scheme 1). Introduction of a jt bond into the molecular structure of 1 furnishes homoallylic amine 2 and satisfies the structural prerequisite for an aza-Prins transform.4 Thus, disconnection of the bond between C-2 and C-3 affords intermediate 3 as a viable precursor. In the forward sense, a cation ji-type cyclization, or aza-Prins reaction, could achieve the formation of the C2-C3 bond and complete the assembly of the complex pentacyclic skeleton of the target molecule (1). Reduction of the residual n bond in 2, hydro-genolysis of the benzyl ether, and adjustment of the oxidation state at the side-chain terminus would then complete the synthesis of 1. 

Triethylamine as the electron donor was also used by Mattay and co-workers in tandem fragmentation cyclization reactions of a-cyclopropylketones. The initial electron transfer on the ketone moiety is followed by the fast cyclopropyl-carbinyl-homoallyl rearrangement, yielding a distonic radical anion. With an appropriate unsaturated side chain within the molecule both annealated and spi-rocyclic ring systems are accessable in moderate yields (Scheme 41) [62]. 

Oxonine with homoallyl ether side chain was a suitable intermediate for RCM synthesis of oxonines with annulated oxepine ring <2004TL7567>. 

Reduction of acetoxy difluorocyclopropanes with lithium aluminium hydride allows preparation of ) -fluoroalcohols (equation 140) , whereas deprotonation of difluorocyclopropanes bearing an acceptor-substituted side chain gives fluorodienes stereoselectively after cyclopropylmethylanion-homoallyl anion rearrangement and fluoride elimination (equation 141) . ... 

Kitching and co-workers " " developed total syntheses of plakortones C, D, E, and F. Acquisition of plakortone D, the most effective activator of SR-Ca " -pumping ATPase, used stereodefined lactone cores that resulted from asymmetric dihydroxylation of protected homoallylic alcohol 67 (Scheme 15.18). A derived lactone aldehyde was then coupled with an independently generated, sulfone activated side chain unit 68. The 5,6- -double bond, carried through the sequence as a protected, stereodefined diol, was released there by stereospecific sy/j-elimination via an orthoester derivative. Racemic plakortone E was also acquired by using the Pd(II) induced sequence, but in this case, the required, complete acyclic system 69 was assembled first. 

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