Phenyl rings, alcohols

C13-0003. Draw one complete specific line structure for each of the following (a) an amine with the formula Cg Hi 5 N (b) an ester with at least seven carbon atoms (c) an alcohol with a molar mass of 74 g/mol and (d) a molecule with at least ten carbons that contains an aldehyde group and a phenyl ring... 

An 8-phenylmenthol ester was employed as the chiral auxiliary to achieve enantioselectivity in the synthesis of prostaglandin precursors.83 The crucial features of the TS are the anti disposition of the Lewis acid relative to the alcohol moiety and a tt stacking with the phenyl ring that provides both stabilization and steric shielding of the a-face. 

Cyclizations of dihydroxystilbene 256 using 4 mol % of chiral ruthenium complexes under photolytic conditions were investigated by Katsuki et al. (Scheme 65) [167]. Coordination of alcohols/phenols to Ru(IV) species generates a cation radical with concomitant reduction of metal to Ru(III). Cycli-zation of this oxygen radical followed by another cyclization provides the product 257. Catalyst 259 provided 81% ee of the product in chlorobenzene solvent. Optimization of the solvent polarity led to a mixture of toluene and f-butanol in 2 3 ratio as the ideal solvent. Substituents on the phenyl rings led to a decrease in selectivity. Low yields were due to the by-product 258. 

In a water/chlorobenzene biphasic system, reduction of aromatic aldehydes by hydrogen transfer from aqueous sodium formate catalyzed by [ RuCl2(TPPMS)2 2] provided unsaturated alcohols exclusively (Scheme 10.7). Addition of 3-CD shghtly inhibited the reaction [13]. It was speculated that this inhibition was probably due to complexation of the catalyst by inclusion of one of the non-sulfonated phenyl rings of the TPPMS ligand, however, no evidence was offered. 

Oxidative cleavage of monocyclic and bicyclic allylic alcohols to keto acids and di-acids respectively is effected by RuClj/aq. Na(IO )/CCl -CH3CN thus trans-verbenol gave (+)-c/x-pinononic acid and (+)-frani-pinocarveol yielded (-)-cis-pinic acid (Table 3.6) [237]. The double bond in diphenylcholene was cleaved by RuOj/aq. Na(IO )/CCl to aldehyde and acid (Table 3.4) and the adjoining phenyl rings destroyed [238]. 

The epoxy alcohol 47 is a squalene oxide analog that has been used to examine substrate specificity in enzymatic cyclizations by baker s yeast [85], The epoxy alcohol 48 provided an optically active intermediate used in the synthesis of 3,6-epoxyauraptene and marmine [86], and epoxy alcohol 49 served as an intermediate in the synthesis of the antibiotic virantmycin [87], In the synthesis of the three stilbene oxides 50, 51, and 52, the presence of an o-chloro group in the 2-phenyl ring resulted in a lower enantiomeric purity (70% ee) when compared with the analogs without this chlorine substituent [88a]. The very efficient (80% yield, 96% ee) formation of 52a by asymmetric epoxidation of the allylic alcohol precursor offers a synthetic entry to optically active 11 -deoxyanthracyclinones [88b], whereas epoxy alcohol 52b is one of several examples of asymmetric epoxidation used in the synthesis of brevitoxin precursors [88c]. Diastereomeric epoxy alcohols 54 and 55 are obtained in combined 90% yield (>95% ee each) from epoxidation of the racemic alcohol 53 [89], Diastereomeric epoxy alcohols, 57 and 58, also are obtained with high enantiomeric purity in the epoxidation of 56 [44]. The epoxy alcohol obtained from substrate 59 undergoes further intramolecular cyclization with stereospecific formation of the cyclic ether 60 [90]. 

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