Interactions gauche

VViberg K B and M A Murcko 1988. Rotational Barriers. 2. Energies of Alkane Rotamers. An Examination of Gauche Interactions. Journal of the American Chemical Society 110 8029-8038. 

Further substitution can introduce additional factors, especially nonbonded repulsions, which influence conformational equilibria. For example, methyl substitution at C—2, as in 2-methyl-l-butene, introduces a methyl-methyl gauche interaction in the conformation analogous to B, with the result that in 2-methyl-l-butene the two eclipsed conformations are of approximately equal energy. Increasing the si2e of the group at... 

Studies have established that the partition between transition states 3 and 4 depends on the nature of the diol unit bound to boron and on the steric and electronic effects of the a-sub-stituent X23. The data shown below demonstrate that the reactions of2-(l-methyl-2-propenyl)-4,4,5,5-tetramethyl-l,3,2-dioxaborolane proceed with a moderate preference for transition state 3 with the C2 methyl group in an axial position. Selectivity diminishes with 2-(l-methyl-2-propenyl)-l,3,2-dioxaborolane and reverses with dimethyl (l-methyl-2-propenyl)boronale, suggesting that steric interactions (gauche interactions in the case of the tetramethyl-1,3,2-diox-aborolane) between X and the diol unit on boron are capable of destabilizing transition state 4 relative to 3. 

Tin enolates are also used in aldol reactions.27 Both the Sn(II) and Sn(IV) oxidation states are reactive. Tin(II) enolates can be generated from ketones and Sn(II)(03SCF3)2 in the presence of tertiary amines.28 The subsequent aldol addition is syn selective and independent of enolate configuration.29 This preference arises from avoidance of gauche interaction of the aldehyde group and the enolate P-substituent. The syn stereoselectivity indicates that reaction occurs through an open TS. 

For /(-cnolates the Felkin TS is preferred, the enolate approaches opposite the largest aldehyde substituent, and the preferred product is 2,3-anti-3,4-syn. TS D is preferred for Zs-enolates because of the gauche interaction between R2 and RL in TS E. 

The A// -terms were rationalised and accounted for in terms of increase of gauche interactions upon cyclisation in the substituted case relative to the unsubstituted case. The AS°-terms were calculated by means of a simplified... 

NMR data depicted in Scheme 17 deserve some additional comments since they can be especially useful to indicate which conformer is the major one. In the minor cA-isomer, all carbon atoms, except C-2, are more shielded than the corresponding carbon in the trans- isovaei. This can be easily explained by considering that the axial oxygen in 48-m-A or the axial CH2 in 48-m-B respectively causes shielding of CA, C-6 and C-5, C-7 due to their 7-gauche-interactions. 

When electron pairs or polar bonds are placed or generated on adjacent pyramidal atoms, syn or anti periplanar orientations are disfavored energetically with respect to that structure which contains the maximum number of gauche interactions. 

R3 R2 and R2 Ri gauche interactions however, for the same set of substituents, an increase in the steric requirements of either Rj or R3 will influence only one set of vicinal steric interactions (Rj R2 or R3 R2). Some support for these conclusions has been cited (eqs. [6] and [7]). These qualitative arguments may also be relevant to the observed populations of hydrogen- and nonhydrogen-bonded populations of the aldol adducts as well (see Table 1, entries K, L). Unfortunately, little detailed information exists on the solution geometries of these metal chelates. Furthermore, in many studies it is impossible to ascertain whether the aldol condensations between metal enolates and aldehydes were carried out under kinetic or thermodynamic conditions. Consequently, the importance of metal structure and enolate geometry in the definition of product stereochemistry remains ill defined. This is particularly true in the numerous studies reported on the Reformatsky reaction (20) and related variants (21). 

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