Absolute configuration products

Which product compound A B or C would you expect to be formed when 1 methyl 1 2 epoxycyclopentane of the absolute configuration shown IS allowed to stand in methanol containing a few drops of sulfuric acid Compare your answer with that given for Problem 16 13... 

Absolute configuration (Section 7 5) The three dimensional arrangement of atoms or groups at a chirality center Acetal (Section 17 8) Product of the reaction of an aldehyde or a ketone with two moles of an alcohol according to the equation... 

On the basis of the absolute configuration of the cycloaddition product 4, formed in the reaction catalyzed by (R)-8e, model calculations using (J )-8d show that the preferred geometry for the intermediate is one in which the two oxygen... 

The absolute configuration of the cycloaddition product obtained by the reaction of ketones with activated dienes catalyzed by (S)-t-Bu-BOX-Cu(II) (S)-21b points also to an intermediate in which the geometry around the central copper atom is square-planar similar to 26 above, and that the diene approaches the carbonyl functionality in an endo fashion. 

The absolute configuration of the cycloaddition products 54a,b was assigned by transformation to the lactones 66a,b with known configuration (Scheme 4.35)... 

The absolute configuration of products obtained in the highly stereoselective cycloaddition reactions with inverse electron-demand catalyzed by the t-Bu-BOX-Cu(II) complex can also be accounted for by a square-planar geometry at the cop-per(II) center. A square-planar intermediate is supported by the X-ray structure of the hydrolyzed enone bound to the chiral BOX-copper(II) catalyst, shown as 29b in Scheme 4.24. 

The desilylacetylated qrcloadducts, produced from the reactions of trimethylsilyl-diazomethane with 3-crotonoyl-2-oxazolidinone or 3-crotonoyl-4,4-dimethyl-2-oxa-zolidinone, were transformed to methyl traws-l-acetyl-4-methyl-l-pyrazoline-5-car-boxylate through the reactions with dimethoxymagnesium at -20 °C. When the optical rotations and chiral HPLC data were compared between these two esters, it was found that these two products had opposite absolute stereochemistry (Scheme 7.39). The absolute configuration was identified on the basis of the X-ray-determined structure of the major diastereomer of cycloadduct derived from the reaction of trimethylsilyldiazomethane to (S)-3-crotonoyl-4-methyl-2-oxazolidi-none. 

An important stereochemical issue presents itself here. A priori, an aldol condensation between intermediates 2 and 3 could result in the formation of a mixture of diastereomeric aldol adducts, epi-meric at C-7, with little or no preference for a particular stereoisomer. Cram s rule2,4 predicts the formation of aldol adduct 43. This intermediate possesses the correct absolute configuration at C-7, and it should be noted that Kishi et al. had demonstrated during the course of their monensin synthesis that a similar aldol condensation produced the desired C-7 epimer as the major product.12... 

The absolute configuration of the major aldol product anti-11, obtained from the corresponding (47 ,55)-oxazolidine and propanal, was determined by its conversion to (3A, 4W)-4-methyl-3-heptanol (12)5. 

In order to prove the utility of this method and to ascertain the absolute configuration of the products, (S)-alanine has been enantioselectively prepared. The key step is the addition of methyllithium to the AjA -dimethyl hydrazone acetal 4c, derived from diol 3c. In accordance with 13C-NMR investigations it can therefore be assumed that all major diastereomers resulting from the addition of organolithium reagents to hydrazone acetals 4a-c derived from diols 3a, 3b or 3c (Table 3, entries 1 -6) have an S configuration at the newly formed stereogenic center. 

Similar additions may be performed with the enamine 13. However, with 3-buten-2-one or methyl 2-propenoate Lewis acid catalysis is needed to activate the Michael acceptor chloro-trimethylsilane proved to be best suited for this purpose. A remarkable solvent effect is seen in these reactions. A change from THF to HMPA/toluene (1 1) results in a reversal of the absolute configuration of the product 14, presumably due to a ligand effect of HMPA235. 

---