Propionic acid aldehyde

Zhu et al. [103] reported a fadle access to biologically relevant macrocycles bearing an endo diaryl ether bond by means of a tandem Ugi-4CR/SNAr. The reaction between 3-hydroxyphenylacetic [or 3-(3-hydroxyphenyl)propionic] acid, aldehydes, amines, and isocyanide 197 gave the expected dipeptide derivatives 198 as a 1 1 mixture of diastereoisomers. The reaction gave high yields when performed in tri-... 

It IS hard to find a class of compounds in which the common names of its members have influenced organic nomenclature more than carboxylic acids Not only are the common names of carboxylic acids themselves abundant and widely used but the names of many other compounds are derived from them Benzene took its name from benzoic acid and propane from propionic acid not the other way around The name butane comes from butyric acid present m rancid butter The common names of most aldehydes are derived from the common names of carboxylic acids—valeraldehyde from valeric acid for exam pie Many carboxylic acids are better known by common names than by their systematic ones and the framers of the lUPAC rules have taken a liberal view toward accepting these common names as permissible alternatives to the systematic ones Table 19 1 lists both common and systematic names for a number of important carboxylic acids... 

There is a compound called propanol with structural formula CH3CH2CH2OH. If it is oxidized carefully, an aldehyde called propionaldehyde is obtained. Vigorous oxidation gives an acid called propionic acid. Draw structural formulas like those shown in Figures 18-6 and 18-7 for propionaldehyde and propionic acid. 

Papageorgiou and Benezra204 treated chiral r-butyl (-)-(S)- and ( + )-(R)-2-(p-tolylsulfinyl)propionate with an aldehyde, then pyrolyzed the mixture and obtained chiral a-(hydroxyalkyl)acrylate in 75% e.e. Similarly, condensation of the anion of ( + )-(R)-3-(p-tolylsulfinyl)propionic acid 159 with aldehydes was found to give the diastereomeric [i-sulfinyl-y-lactones, (+)-(Sc4,Rc5,Ps)-160a and ( + )-( c4,Sc5,l s)-160b in an approximate ratio of 60 40205. 

The selective inclusion properties of 40 (Table 6) offer several possibilities of compound separation which are of interest in analytics and for preparation purposes37). The separation of methanol from a mixture with ethanol, or of propionic aldehyde from propionic acid, or of 2-chloropropionic acid from propionic acid or lactic acid, etc., are a few examples. 

Methyloxindole has been prepared by the reduction of a-(2-nitro-phenyl)propionic acid,2 by heating j8-propionylphenylhydrazine with lime3 or with sodium alkoxides,4 and by reduction of the benzoyl derivative of oxindole-3-aldehyde.6... 

Electrochemistry offers new routes to the production of several commercially relevant a-arylpropionic acids, used as non-steroidal anti-inflammatory agents (NSAI) [178,182]. A preparative method based on sacrificial Al-electrodes has been set up for the electrocarboxylation of ketones [117,183-187] and successfully applied to the electrocarboxylation of aldehydes, which failed with conventional systems. The electrocarboxylation of 6-methoxy-acetonaphthone to 2-hydroxy-2-(6-methoxynaphthyl)propionic acid, followed by chemical hydrogenation to 2-(6-methoxynaphthyl)-2-propionic acid - one of the most active NSAI acids - has been developed up to the pilot stage [184,186],... 

On the other hand, the method of Mukaiyama can be succesfully applied to silyl enol ethers of acetic and propionic acid derivatives. For example, perfect stereochemical control is attained in the reaction of silyl enol ether of 5-ethyl propanethioate with several aldehydes including aromatic, aliphatic and a,j5-unsaturated aldehydes, with syir.anti ratios of 100 0 and an ee >98%, provided that a polar solvent, such as propionitrile, and the "slow addition procedure " are used. Thus, a typical experimental procedure is as follows [32e] to a solution of tin(II) triflate (0.08 mmol, 20 mol%) in propionitrile (1 ml) was added (5)-l-methyl-2-[(iV-l-naphthylamino)methyl]pyrrolidine (97b. 0.088 mmol) in propionitrile (1 ml). The mixture was cooled at -78 °C, then a mixture of silyl enol ether of 5-ethyl propanethioate (99, 0.44 mmol) and an aldehyde (0.4 mmol) was slowly added to this solution over a period of 3 h, and the mixture stirred for a further 2 h. After work-up the aldol adduct was isolated as the corresponding trimethylsilyl ether. Most probably the catalytic cycle is that shown in Scheme 9.30. 

To reach this target, bis-aminothiazoles, aromatic aldehydes, and 2-mercapto-propionic acid or 2-mercaptosuccinic acid were adsorbed on the neutral alumina support and were microwave-irradiated under solvent-free conditions (Scheme 56). The authors reported the high level of the reaction conversion, which gave the desired products 119 in excellent yields for a rather short time (up to 7 min). 

A biaryl propionic acid derivative containing a furan ring as a prominent feature has antiinflammatory activity. The patented synthesis involves a straightforward organometallic addition of ethyl lithioacetate to aldehyde 12 followed by saponification... 

Few reports describe reactions of substituents at the benzene ring of benzotriazoles. The facile deprotonation of the methyl group in N-Boc-7-methyl-1-aminobenzotriazole (403) with butyllithium followed by reactions with electrophiles gives substituted products (404) (Scheme 78). The electrophile can be an alkyl halide, an aldehyde or a ketone, and the Boc group is removed by brief exposure to CF3CO2H in CH2CI2 <93TL6935>. 1-Acetylbenzotriazole (405) is hydrolyzed to form 3-(177-5-hydroxybenzotriazol-6-yl)propionic acid (406), which is then converted (Scheme 79) to... 

Reactions lla-e add up to Reaction 10. Reactions lla-b have been shown above to be catalyzed by Rh/CH3l. Reaction 11c, i.e. acid-catalysed pyrolysis of EDA to acetaldehyde and acetic anhydride, is well documented (9). Both reaction lid, hydrogenation of aldehyde, and Reaction lie, carbonylation of alcohols, are of course well known. The reaction sequence is in agreement with the fact that EDA and AH, especially in short-duration experiments, are detected as by-products. Acetaldehyde is also observed in small quantities, but no ethanol is found. Possibly, Reactions lid and He occur concertedly. We have separately demonstrated that both EDA and AH are suitable feeds to produce propionic acid under homologation reactions conditions. We thus demonstrated... 

Propene Propene Oxide Propene Polymer Propenoic Acid Beta-Propiolactone Propionaldehyde Propionic Acid Propionic Aldehyde Propionic Anhydride Beta-Propionolactone Propionyl Oxide N-Propyl Acetate 2-Propyl Acetate Propyl Alcohol... 

Metal-catalysed hydrocarboxylation of olefins (Equation 3) is the poor relative of the more famous hydroformylation. It generally requires forcing reaction conditions and suffers from mediocre activities and selectivities (n/i ratio). Moreover, the same products can be made via hydroformylation and oxidation of the aldehyde product.431 Consequently, there are few industrial applications of hydrocarboxylation e.g. Ni(CO)4-catalysed production of propionic acid by hydrocarboxylation of ethylene.432,433... 

Reduction of add chlorides (8, 461).2 Acid chlorides can be selectively reduced to aldehydes by slightly less than 1 molar equivalent of NaBH4 in a mixture of DMF THF at - 70°. It is essential to minimize further reduction by quenching the reaction with a mixture of propionic acid-dilute HC1 and ethyl vinyl ether (caution H2 is evolved). Both aliphatic and aromatic aldehydes can be obtained in 80-95% yield. 

In the second method (Scheme 26) a 3-oxo ester is synthesized from an acid chloride and 2,2-dimethyl-l,3-dioxane-4,6-dione. Then, reductive amination of the 3-oxo ester with a-methyl(phenyl)methylamine provides a 3-amino- 3-alkyl propionic acid ester. This compound is then converted into the corresponding aldehyde, which is condensed with an eno-late to afford the final product. A representative synthetic procedure of this method is given in detail. 

BODIPY 530/550 C3 hydrazide is 4,4-difluoro-5,7-diphenyl-4-bora-3a,4a-diaza-s-indacene-3-propionyl hydrazide, a derivative of the basic BODIPY structure, which contains two phenyl rings off the No. 5 and 7 carbon atoms and a propionic acid hydrazide group on the No. 3 carbon atom (Molecular Probes). The hydrazide functional group reacts with aldehyde- or ketone-containing molecules to form hydrazone linkages (Fig. 229). The compound may be used to label glycoproteins or other carbohydrate-containing molecules after oxidation of their polysaccharide portions with sodium periodate to yield aldehyde residues. 

Borane scavenger.2 Sodium borohydride in DMF can be used to reduce an acid chloride to an aldehyde in > 70% yield if a molar excess of pyridine is present as a borane scavenger. This methodology is now preferred to an earlier method from the same laboratory (10, 358) in which the reduction is limited by a quench with ethyl vinyl ether and propionic acid. 

The resin-bound phenylene diamine intermediates 3 are then generated by nitro group reduction with tin(II) chloride in NMP and cyclization/ aromatization with a wide variety of aldehydes gave the resin-bound benzimidazole intermediates 4. The treatment of this intermediate with 50% TFA/DCM liberates the substituted 3-(benzoimidazol-l-yl)-propionic acid derivative 4a. Analysis of this intermediate by HPLC and LC-MS gave a measure of the purity of the resin-bound product and enabled the optimization of conditions for the incorporation of the Rl-nitroarenes and R2-aldehydes by an iterative process. 

Some cation radicals can appear as hydrogen acceptors. Thus, fullerene C6o is oxidized to the cation radical at preparative scale by means of photoinduced electron transfer. This cation radical reacts with various donors of atomic hydrogen (alcohols, aldehydes, ethers), yielding the fullerene 1,2-dihydroderivative. In the case of tert-butanol, propionic acid, and glycol, product formation is also initiated by H abstraction from the OH group. The reaction proceeds according to Scheme 1-47 (Siedschlag et al. 2000) ... 

Although various chiral glycosyl aldehydes with a direct attachment of the carbonyl group to the anomeric center showed low diastereoselectivity [52], a moderate stereoselectivity was observed in the condensation of 45 with methyl isocyanoa-cetate, propionic acid and a solid-supported amine [53]. 

Linoleum was analyzed by Jensen, WolkofFand Wilkins (1995,1996) using GC—O and GC—MS. The most important odorants identified were butanal, hexanal, heptanal, octanal, nonanal, decanal, acetic acid, propionic acid, butyric acid, hexanoic acid, toluene, 2-pentylfuran. The authors state that they might have overlooked some unsaturated aldehydes with very low odor thresholds. They were able to closely simulate the odor of linoleum by mixing the compounds according to... 

Thus the two mandelic acid-based boron enolates described in this section may be regarded as sources of propionic acid which add to aldehydes to give erythro aldol products of high stereochemical purity. An elegant synthesis of the macrolide, 6-deoxyerythronolide B, uses three mandelic acid-based boron enolate/aldehyde reactions. The retrosynthetic analysis of the synthesis is shown in Figure B5.ll. 

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