Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

P-Hydroxy carboxylic esters

Aldol condensation of a-amino silyl ketene acetals (l).10 2-Dibenzylami-noketene trimethylsilyl acetals (1) react with aldehydes premixed with TiCl4 to give a-amino-p-hydroxy carboxylic esters (2) with moderate to high syn-selectivity. Surprisingly, TiCl4-catalyzed reaction of 1 with a chiral a-alkoxy aldehyde proceeds with low asymmetric induction. [Pg.307]

The products are converted into P-hydroxy carboxylic esters by oxidation with NBS in CHjCh/CjHjOH at 0°. [Pg.2]

Enantiomerically enriched a- and P-hydroxy carboxylic esters are valuable reagents for optical resolution and are important intermediates in the preparation of pharmaceuticals and agrochemicals [18,19], Esters of mandelic acid are used as precursors... [Pg.463]

Stereoselective addition of a dithiane ankm to dural 2-mediyl-3-trimethylsilyl-3-butenal combined with the stereoselective addition of a Grignard leagmt to the chiral a-alkoxy ketone affords a practical method for the construction of a,7-dimethyl-a,p-dihydroxy compounds, useful intemiediates fra the synthesis of erythronolides (Scheme 33). P-Hydroxy carboxylic esters were synthesized by the addition of ethyl 1,3-dithiolanyl-2-caiboxylate enolate to a chiral ald yde, followed by desidfiirization. ... [Pg.564]

Scheme 15 illustrates the asymmetric hydrogenation of 3-keto phosphonates catalyzed by a BINAP-Ru complex, giving P-hydroxy phosphonates in up to 99% ee [61]. The sense of enantioface differentiation is the same as that of hydrogenation of P-keto carboxylic esters (see table of Scheme 3). The reactivity of the phosphonates is much higher than that of the carboxylic esters so that the hydrogenation proceeds even at 1 to 4 atm of hydrogen and at room temperature. A Ru complex of BDPP also shows high enantioselectivity [46b]. Chiral P-hydroxy phosphonates thus obtained are useful intermediates for the syntheses of phosphonic acid-based antibiotics as well as haptens of catalytic antibodies. Similarly, P-keto thiophosphates are hydrogenated enantioselectively with a MeO-BIPHEP-Ru catalyst [61b]. Scheme 15 illustrates the asymmetric hydrogenation of 3-keto phosphonates catalyzed by a BINAP-Ru complex, giving P-hydroxy phosphonates in up to 99% ee [61]. The sense of enantioface differentiation is the same as that of hydrogenation of P-keto carboxylic esters (see table of Scheme 3). The reactivity of the phosphonates is much higher than that of the carboxylic esters so that the hydrogenation proceeds even at 1 to 4 atm of hydrogen and at room temperature. A Ru complex of BDPP also shows high enantioselectivity [46b]. Chiral P-hydroxy phosphonates thus obtained are useful intermediates for the syntheses of phosphonic acid-based antibiotics as well as haptens of catalytic antibodies. Similarly, P-keto thiophosphates are hydrogenated enantioselectively with a MeO-BIPHEP-Ru catalyst [61b].
Later, Yamamoto and coworkers developed the axially chiral ester 183 for asymmetric acetate aldol additions. After formation of the lithium enolate with LDA, the reaction with various aldehydes yielded P-hydroxy esters 184 in very high diastereoselectivity. It was shown, for two adducts, that a nearly quantitative saponification leads to P-hydroxy carboxylic acids 176 and liberates phenol 185 in nearly quantitative yield and undiminished optical purity (Scheme 4.40) [100]. The authors discuss a twist-boat as well as an open transition state for rationalizing the preferred Re-face attack to the aldehyde, observed with (R,R)-configured acetate 183. Yamamoto s procedure is impressive because of its stereoselectivity, but one has to be aware that the chiral auxiliary 185 is by far not as readily accessible as others also enabling the asymmetric acetate aldol addition. [Pg.160]

Noyori R, Ohkuma T, Kitamura M, Takaya H, Sayo N, Kumobayashi H, Akutagawa S. As)umnetric hydrogenation of p-keto carboxylic esters. A practical, purely chemical access to p-hydroxy esters in high enantiomeric purity. J. Am. Chem. Soc. 1987 109 5856-5858. [Pg.896]

Replacement of a benzene ring by its isostere, thiophene, is one of the more venerable practices in medicinal chemistry. Application of this stratagem to the NSAID piroxicam, gives tenoxicam, 136, a drug with substantially the same activity, nie synthesis of this compound starts by a multi-step conversion of hydroxy thiophene carboxylic ester 130, to the sulfonyl chloride 133. Reaction of that with N-methylglycinc ethyl ester, gives the sulfonamide 134. Base-catalyzed Claisen type condensation serves to cyclize that intermediate to the p-keto ester 135 (shown as the enol tautomer). The final product tenoxicam (136) is obtained by heating the ester with 2-aminopyridine [22]. [Pg.173]

Cydization of P-hydroxy-a-amino esters under Mitsunobu reaction conditions is an alternative approach to aziridine-2-carboxylic esters [6b, 13-16], In this case the P-hydroxy group is activated by a phosphorus reagent. Treatment of Boc-a-Me-D-Ser-OMe 13 (Scheme 3.5) with triphenylphosphine and diethyl azodicarboxylate (DEAD), for example, gave a-methyl aziridinecarboxylic acid methyl ester 14 in 85% yield [15]. In addition to PPh3/DEAD [13b, 15], several other reagent combi-... [Pg.75]

In the presence of a strong base, the ot carbon of a carboxylic ester can condense with the carbonyl carbon of an aldehyde or ketone to give a P-hydroxy ester, which may or may not be dehydrated to the a,P-unsaturated ester. This reaction is sometimes called the Claisen reaction,an unfortunate usage since that name is more firmly connected to 10-118. In a modem example of how the reaction is used, addition of tert-butyl acetate to LDA in hexane at -78°C gives the lithium salt of ferf-butyl acetate, " (12-21) an enolate anion. Subsequent reaction a ketone provides a simple rapid alternative to the Reformatsky reaction (16-31) as a means of preparing P-hydroxy erf-butyl esters. It is also possible for the a carbon of an aldehyde or ketone to add to the carbonyl carbon of a carboxylic ester, but this is a different reaction (10-119) involving nucleophilic substitution and not addition to a C=0 bond. It can, however, be a side reaction if the aldehyde or ketone has an a hydrogen. [Pg.1224]

D-a-Hydroxy carboxylic acids.1 These optically active acids can be prepared by a Sn2 reaction between the t-butyl esters of L-2-halo carboxylic acids and cesium p-nitrobenzoate, which proceeds with complete inversion. [Pg.78]

The proposed catalytic cycle for this reaction begins with the initial attack of the in situ generated thiazolylidene carbene on the epoxyaldehyde followed by intramolecular proton transfer (Scheme 28, XXXII-XXXIII). Isomerization occurs to open the epoxide forming XXXIV which undergoes a second proton transfer forming XXXV. Diastereoselective protonation provides activated carboxylate intermediate XXXVI. Nucleophilic attack of the activated carboxylate regenerates the catalyst and provides the desired P-hydroxy ester. [Pg.110]

Diazocycloalkanones with five- to twelve-membered rings can be synthesized by the present procedure in good yields (Table I).4 Diazo transfer with deformylation can also be used for the preparation of bicyclic a-diazo ketones.10,11 A related procedure involving reaction of the sodium salt of an a-(hydroxy methylene)-ketone with p-toluenesulfonyl azide in ethanol has been applied to the synthesis of diazoalkyl ketones, a-diazo aldehydes, and a-diazo carboxylic esters.12... [Pg.129]

TABLE 8.2 OXAZOLINES FROM CARBOXYLIC ESTERS AND AMINO ALCOHOLS, 337 TABLE 8.3 OXAZOLINES FROM PRIMARY p-HYDROXY AMIDES AND SOCI2, 340-344... [Pg.690]

See other pages where P-Hydroxy carboxylic esters is mentioned: [Pg.241]    [Pg.241]    [Pg.474]    [Pg.580]    [Pg.203]    [Pg.227]    [Pg.443]    [Pg.1001]    [Pg.381]    [Pg.241]    [Pg.260]    [Pg.348]    [Pg.159]    [Pg.444]    [Pg.346]    [Pg.160]    [Pg.807]    [Pg.407]    [Pg.378]    [Pg.930]    [Pg.1198]    [Pg.654]    [Pg.57]    [Pg.688]    [Pg.51]   
See also in sourсe #XX -- [ Pg.2 ]

See also in sourсe #XX -- [ Pg.2 ]



SEARCH



Hydroxy esters

P-Hydroxy esters

P-hydroxy

© 2024 chempedia.info