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Hydroxy-acids and -esters

The rules of Baldwin (55) for ring closure in trigonal systems (see p. 171 for an introduction) are the following 3- to 7-Exo-Trig processes (152-156) are all favored processes. 3- to 5-Endo-Trig (157-159) are disfavored but 6- and 7-Endo-Triq (160-161) are favored. The literature is replete with examples of 3- to 7-Exo-Trig for instance, lactonization of u-hydroxy-acids and esters are of this type, the formation of lactams from w-aminoacids and also the Dieckmann cyclization of diesters. [Pg.125]

Miscellanea A methodology to prepare a-substituted-P-hydroxy acids and esters has been introduced in solid phase based on an Evans oxazolidinone-based linker to produce enantiospecifk aldol condensations (Figure 15.4). Acids and esters were released by treatment with LiOH and H202 in THF (at -20 °C) or NaOMe in THF, respectively [58, 59], Diels-Alder adducts of oxazolidinone-bound crotonates have also been detached with LiOCH2Ph [60],... [Pg.423]

Compounds such as (R)-(-i-)-r-butyl(p-tolylsulfinyl) acetate (94) have proved to be powerful chiral synthons in asymmetric aldol-type condensation reactions [64]. Applications have included the asymmetric synthesis of p-hydroxy acids and esters [65] and naturally occurring five- and six-membered lactones [66]. [Pg.133]

Oil maltha Carboxylic acids, hydroxy acids, and esters Acid value >20 Soap value 100-200 Iodine value 45-60 Products while distilling natural oil 2-5 % liquid soap, treated with soda or NaOH... [Pg.180]

By incorporating into the stationary phase a chiral charge transfer reagent also capable of hydrogen bonding, such as 2,2,2-trifluoro-l-[(10-methyl)-9-anthryl] ethanol, Pirkle and coworkers [18] have resolved substances which either contain a CT complexing moiety in their molecule, e.g. aromatic sulphoxides and lactones, or possess a function through which such a moiety can be introduced, e.g. alcohols, mercaptans, amines, amino alcohols, amino acids, hydroxy acids and esters. [Pg.292]

Many other hydroxy compounds bearing a secondaiy hydroxy group can be enan-tioselectively acylated. In the case of a few cyanohydrins, optically active acetates are prepared in a one-pot procedure from the aldehyde and acetone cyanohydrin, followed by a lipase-catalyzed transesterification [196]. Also, 2-hydroxy acids and esters [197-201] can be enzymatically resolved, as shown in Scheme 43. [Pg.433]

N-Benzylamides are recommended when the corresponding acid is liquid and/or water-soluble so that it cannot itself serve as a derivative. Phe benzylamides derived from the simple fatty acids or their esters are not altogether satisfactory (see Table below) those derived from most hydroxy-acids and from poly basic acids or their esters are formed in good yield and are easily purified. The esters of aromatic acids yield satisfactory derivatives but the method must compete with the equally simple process of hydrolysis and precipitation of the free acid, an obvious derivative when the acid is a solid. The procedure fails with esters of keto, sul phonic, inorganic and some halogenated aliphatic esters. [Pg.394]

A variety of a-amino acid derivatives, including the acids themselves, haUdes, esters, and amides can be transformed iato hydantoias by coadeasatioa with urea (67). a-Hydroxy acids and thek nitriles give a similar reaction (68) ... [Pg.254]

Castor oil sulfation results largely in a sulfuric acid ester in which the hydroxyl group of ricinoleic acid has been esterified. However, other reactions can also take place. For example, the double bond can be attacked to produce an ester or the hydroxysulfonic acid (33). Hydrolysis of the sulfuric acid esters occurs during the reaction and subsequent treatment forming hydroxy acids and sulfuric acid. These hydroxy acids can be further sulfated. [Pg.154]

Some workers avoid delay. Pai)adium-on-carbon was used effectively for the reductive amination of ethyl 2-oxo-4-phenyl butanoate with L-alanyl-L-proline in a synthesis of the antihyperlensive, enalapril maleate. SchifTs base formation and reduction were carried out in a single step as Schiff bases of a-amino acids and esters are known to be susceptible to racemization. To a solution of 4,54 g ethyl 2-oxO 4-phenylbutanoate and 1.86 g L-alanyl-L-proline was added 16 g 4A molecular sieve and 1.0 g 10% Pd-on-C The mixture was hydrogenated for 15 hr at room temperature and 40 psig H2. Excess a-keto ester was required as reduction to the a-hydroxy ester was a serious side reaction. The yield was 77% with a diastereomeric ratio of 62 38 (SSS RSS)((55). [Pg.85]

Less important methods are the self condensation of w-hydroxy acid and the ring opening of lactones and cyclic esters. In self condensation of w-hydroxy acids, cyclization might compete seriously with linear polymerization, especially when the hydroxyl group is in a position to give five or six membered lactones. [Pg.360]

A number of amide- and ester-linked fatty acids and (/ )-3-hydroxy acids are components of the lipid A part in the LPS from Gram-negative bacteria. The acids have been tabulatedand the chemistry of lipid A summarized. The most common acids in lipid A from Enterobacteriaceae are the saturated 12 0,14 0, and 16 0, and the (/ )-3-hydroxy-14 0, The last is linked to N-2 and 0-3 of the 2-amino-2-deoxy-D-glucopyranosyl residues, and the others are ester-linked to the hydroxy acid, as in the lipid A (44) of Salmonella minnesota. Other linear and branched fatty acids, unsaturated acids, S)-2- and (/ )-3-hydroxy acids, and 3-oxotetradecanoic acid are components of lipid A from certain different species. In the lipid A from Rhizobium trifolii, 2,7-dihydroxyoctanoic acid is linked as amide to a 2-amino-2-deoxy-D-gl ucopy ranosy 1 residue. ... [Pg.308]

Nucleophilic substitutions of 0-activated 2-hydroxy carboxylic acids and esters, respectively, are well established, but little is known about the analogous reactions of activated cyanohydrins. Chiral 2-sulfonyloxynitriles, accessible from non-racemic cyanohydrins, have a relatively high configurational stability. They react with nucleophiles under very mild conditions under inversion of configuration (Scheme 8). ° ... [Pg.148]

Based on these preliminary findings, related couplings to pyruvates and iminoacetates were explored as a means of accessing a-hydroxy acids and a-amino acids, respectively. It was found that hydrogenation of 1,3-enynes in the presence of pyruvates using chirally modified cationic rhodium catalysts delivers optically enriched a-hydroxy esters [102]. However, chemical yields were found to improve upon aging of the solvent 1,2-dichloroethane (DCE), which led to the hypothesis that adventitious HC1 may promote re-... [Pg.99]

How the aliphatic monomers are incorporated into the suberin polymer is not known. Presumably, activated co-hydroxy acids and dicarboxylic acids are ester-ified to the hydroxyl groups as found in cutin biosynthesis. The long chain fatty alcohols might be incorporated into suberin via esterification with phenylpro-panoic acids such as ferulic acid, followed by peroxidase-catalyzed polymerization of the phenolic derivative. This suggestion is based on the finding that ferulic acid esters of very long chain fatty alcohols are frequently found in sub-erin-associated waxes. The recently cloned hydroxycinnamoyl-CoA tyramine N-(hydroxycinnamoyl) transferase [77] may produce a tyramide derivative of the phenolic compound that may then be incorporated into the polymer by a peroxidase. The glycerol triester composed of a fatty acid, caffeic acid and a>-hydroxy acid found in the suberin associated wax [40] may also be incorporated into the polymer by a peroxidase. [Pg.27]

A.P. Tulloch, Beeswax structure of the esters and their component hydroxy acids and diols, Chemistry and Physics of Lipids, 6, 235 265 (1971). [Pg.31]

Copolymers of a-hydroxy acids and a-amino acids are one type of poly(ester-amide)s and are called polydepsipeptides (PDPs) [17]. Since some of natural occurring a-amino acids, typically Asp, Glu, lysine (Lys), cysteine (Cys), serine (Ser), and threonine (Thr), possess reactive (hydrophilic) side-chain groups, PDPs... [Pg.73]

For more recent examples involving induced electron transfer linked to cobalt(III) complexes of a-hydroxy acids and hydroquinone esters see Refs. 110, 111. [Pg.284]

By hydroxy group - hydrolysis of telluroesters to carboxylic acids and esters... [Pg.202]

Alkyl- or 3-aryl-2,4-oxazolidinediones via photochemical cyclization, ° organonickel-mediated carbonylation, ° cyclization of A-alkenyl-a-acet-amides, ° carboxylation and cyclization of 2-propynamides, °" cyclization of (9-carbamates of a-hydroxy acetic acids and esters,cyclization of a-hydroxy acetamides,and catalytic asymmetric dihydroxylation (ADH) of A-alkenoyl-2-oxazolidinones. ... [Pg.90]

RCH2OH + Co2(CO)7 (72) A known reaction of cobalt hydrocarbonyl suggests that the cobalt-carbon bond may be preferred. It has been reported that, under rather vigorous conditions, acetaldehyde or formaldehyde react with CO and a cobalt catalyst to give o -hydroxy acids or esters in alcohol solution (7). The intermediate with the carbon-cobalt bond probably is undergoing a CO insertion reaction, folllwed by a hydrolysis or... [Pg.201]

Table 11 contains the known 4-hydroxy-phosphinic acids and esters of type 72 and 84, prepared by different methods. [Pg.57]

See other pages where Hydroxy-acids and -esters is mentioned: [Pg.579]    [Pg.22]    [Pg.377]    [Pg.959]    [Pg.985]    [Pg.305]    [Pg.131]    [Pg.136]    [Pg.561]    [Pg.579]    [Pg.22]    [Pg.377]    [Pg.959]    [Pg.985]    [Pg.305]    [Pg.131]    [Pg.136]    [Pg.561]    [Pg.286]    [Pg.126]    [Pg.251]    [Pg.40]    [Pg.95]    [Pg.965]    [Pg.414]    [Pg.400]    [Pg.8]    [Pg.145]    [Pg.145]    [Pg.294]    [Pg.196]    [Pg.284]   


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By hydroxy group - hydrolysis of telluroesters to carboxylic acids and esters

Hydroxy esters

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