Felkin

Various structural factors have been considered in interpreting this result The most generally satisfactory approach is based on a transition>state model, advanced by Felkin and co-woricers, in which the largest group is oriented perpendiculariy to the carbonyl group. Nucleophilic addition to the carbonyl groi occurs from the opposite side. ... 

M. Cherest, R Felkin, andN. Prudent, Tetrahedron Lett. 1968 4199. 

To account for tlie observed diastereoselectivity, a "modified" Felfcin-Anb model has been proposed [18], Jn analogy to tlie classical Felkin-Anb model, originally developed for tlie addition of otganometallic reagents to aldeliydes possessing a... 

The issue of stereochemistry, on the other hand, is more ambiguous. A priori, an aldol condensation between compounds 3 and 4 could proceed with little or no selectivity for a particular aldol dia-stereoisomer. For the desired C-7 epimer (compound 2) to be produced preferentially, the crucial aldol condensation between compounds 3 and 4 would have to exhibit Cram-Felkin-Anh selectivity22 23 (see 3 + 4 - 2, Scheme 9). In light of observations made during the course of Kishi s lasalocid A synthesis,12 there was good reason to believe that the preferred stereochemical course for the projected aldol reaction between intermediates 3 and 4 would be consistent with a Cram-Felkin-Anh model. Thus, on the basis of the lasalocid A precedent, it was anticipated that compound 2 would emerge as the major product from an aldol coupling of intermediates 3 and 4. 

Cram s open-chain model 229 Cram s rule 229, 233 Cram chelate model 229 Cram cyclic model 229 Cram-Felkin-Anh model 191,207, 236 f 246 cubane 12,318 cyanoacetic acid 636 f. cyanohydrin, protected 145, 150 f. cyclic carbonate protection 541 f., 657, 659 f., 666, 670 cyclization -,6-endo 734 -, 5-exo 733 f. 

In the presence of catalytic amounts of Pd(0), silicon-substituted vinyloxiranes can rearrange into the corresponding ot-silyl- 3,y-unsaturated aldehydes (Scheme 9.34) [151]. Treatment of 80 with Pd(OAc)2 and P(OPh)3 results in the formation of 7t-allylpalladium complex 81. Bond rotation to give 82, followed by migration of the silyl moiety, affords aldehyde 83, which is trapped in situ to provide the Felkin-Anh product 84. The reaction proceeds with retention of configuration and the ee of the starting material is retained in the product. The size of the silicon substituents is critical for the outcome of the reaction, as is the choice of ligands on palladium. 

A further improvement of the theory of 1,2-asymmetric induction was introduced by Felkin15. Neither Cram s open-chain model nor the Karabatsos model is able to explain why the stereoselectivity increases when either the incoming nucleophile R2e or the substituent at the carbonyl group (R1) increases in bulk. To explain these experimental observations the following assumptions are made for the Felkin model ... 

Figure 7. Realistic nucleophile approach Felkin model.

Nonperpendicular attack of the nucleophile explains Felkin s hypothesis for the predominance of interactions involving R1 and R2 over interactions involving the carbonyl oxygen. Additionally, as R1 increases in bulk, the nucleophile is pushed towards the stereogenic center and can better feel" the difference between the substituents, resulting in an increase in stereoselectivity. 

Model calculations generally support Felkin s hypothesis35-38. However, an additional controlling factor is the stabilization of the transition state by the approach of the nucleophile antiperiplanar to a vicinal bond35. In the transition state for axial attack (Figure 8), the incipient bond is approximately antiperiplanar to two axial C — H bonds. Flattening of the ring improves this antiperiplanarity and, therefore, the more flattened the cyclic ketone, the more axial attack is preferred. 

Since equatorial attack is roughly antiperiplanar to two C-C bonds of the cyclic ketone, an extended hypothesis of antiperiplanar attack was proposed39. Since the incipient bond is intrinsically electron deficient, the attack of a nucleophile occurs anti to the best electron-donor bond, with the electron-donor order C—S > C —H > C —C > C—N > C—O. The transition state-stabilizing donor- acceptor interactions are assumed to be more important for the stereochemical outcome of nucleophilic addition reactions than the torsional and steric effects suggested by Felkin. 

M. Cherest, H. Felkin, Tetrahedron Lett. 1971, 383. J. Huet, Y. Maroni-Bernaud. N. T. Anh, J. Seyden-Penne, Tetrahedron Lett. 1976, 159. 

One hypothesis proposes a destabilizing, repulsive interaction between two occupied orbitals. The equatorial transition state is destabilized compared to the axial transition state by torsional strain which is introduced by bond eclipsing of the incipient bond with the axial C-2 and C-6 carbon-hydrogen bonds. This Felkin model33 37 relies on the assumption that an incipient bond, even if it is only partially formed, suffers from severe repulsion in the case of eclipsing vicinal tr-bonds. 

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