P-hydroxy

When the phenol contains a carboxylic acid group, e.g., m- or p-hydroxy-benzoic acid, the acetylated derivative will of course remain in solution as the sodium salt, but is precipitated when the solution is subsequently acidified. Salicylic acid, however, cannot be acetylated under these conditions. 

The Reformatsky Reaction consists of the interaction of an ester of an a-halogeno-acid with an aldehyde, a ketone or another ester in the presence of zinc. For example, if a mixture of ethyl bromoacetate and benzaldehyde is heated with zinc, the latter undoubtedly first combines with the ethyl bromoacetate to form a Grignard-like reagent (reaction A), which then adds on to the benzaldehyde Just as a Grignard reagent would do (reaction B). The complex so formed, on acidification gives ethyl p-phenyl-p-hydroxy-propionate (reaction C). Note that reaction A could not satisfactorily be carried out using... 

Note also that if another ester, of general formula R-COOCjHj, were used in place of benzaldehyde in the above reaction, a similar complex would be formed, and on acidification would give an unstable p-hydroxy-P-ethoxy ester, which would very readily lose ethanol with the formation of a 3-keto-ester. 

Acetaldehyde (and other aldehydes containing at least one hydrogen atom in the a position) when treated with a small quantity of dilute sodium hydr oxide solution or other basic catalyst gives a good yield of aldol (p hydroxy-n-but3Taldehyde) (I), which readily loses water, either by heating the isolated aldol alone or with a trace of mineral acid, to form crotonaldehyde (II) ... 

The ester and catalj st are usually employed in equimoleciilar amounts. With R =CjHs (phenyl propionate), the products are o- and p-propiophenol with R = CH3 (phenyl acetate), o- and p-hydroxyacetophenone are formed. The nature of the product is influenced by the structure of the ester, by the temperature, the solvent and the amount of aluminium chloride used generally, low reaction temperatures favour the formation of p-hydroxy ketones. It is usually possible to separate the two hydroxy ketones by fractional distillation under diminished pressure through an efficient fractionating column or by steam distillation the ortho compounds, being chelated, are more volatile in steam It may be mentioned that Clemmensen reduction (compare Section IV,6) of the hj droxy ketones affords an excellent route to the substituted phenols. 

P-Hydroxy-a-naphthaldehyde, Equip a 1 litre three-necked flask with a separatory funnel, a mercury-sealed mechanical stirrer, and a long (double surface) reflux condenser. Place 50 g. of p-naphthol and 150 ml. of rectified spirit in the flask, start the stirrer, and rapidly add a solution of 100 g. of sodium hydroxide in 210 ml. of water. Heat the resulting solution to 70-80° on a water bath, and place 62 g. (42 ml.) of pure chloroform in the separatory funnel. Introduce the chloroform dropwise until reaction commences (indicated by the formation of a deep blue colour), remove the water bath, and continue the addition of the chloroform at such a rate that the mixture refluxes gently (about 1 5 hours). The sodium salt of the phenolic aldehyde separates near the end of the addition. Continue the stirring for a further 1 hour. Distil off the excess of chloroform and alcohol on a water bath use the apparatus shown in Fig. II, 41, 1, but retain the stirrer in the central aperture. Treat the residue, with stirring, dropwise with concentrated hydrochloric acid until... 

It may be pointed out that dehydration of p hydroxy esters with fused potassium hydrogen sulphate, acetic anhydride, phosphoric oxide or with tliionyl chloride in benzeue solution leads to ap unsiiturated esters containing some PY-unsaturated ester the proportion of the latter depends not only upon the structure of the ester but also upon the dehydrating agent used. Elehydration occasionally occurs during the reaction itself or upon attempted distillation. 

Dehydration of the intermediate p-alkoxy- or p-hydroxy ketone can also serve to drive the reaction to the right. 

AJdoJ Condensation -Aldol condensation Initially give p-hydroxy ketones which under certain conditions readily eliminated to give a,p-unsaturated carbonyls. 

Synthesis The synthesis uses rather more vigorous conditions than those which gave the p-hydroxy carbonyl compoimds. In fact tBull. Chem. Japan. 1952, 25, 54, Chem. Abs..l954. 48. 5143) you can either treat the p-hydroxy compoimd with HCl in acetic acid or do the condensation in base ... 

The p hydroxy aldehyde products of aldol addition undergo dehydration on heat mg to yield a f3 unsaturated aldehydes... 

As a p hydroxy derivative of phenylalanine tyrosine has properties similar to those of phenylalanine plus the ability to engage m hydrogen bonding via its —OH group Asparagine and glutamine are not amines they are amides The side chains of both O... 

One ammo acid often serves as the biological precursor to another L Phenylala nine is classified as an essential ammo acid whereas its p hydroxy derivative L tyro sine IS not This is because animals can convert L phenylalanine to L tyrosine by hydrox ylation of the aromatic ring An arene oxide (Section 24 7) is an intermediate... 

Apart from lactic and hydroxyacetic acids, other a- and P-hydroxy acids have been small-volume specialty products produced in a variety of methods for specialized uses. y-Butyrolactone [96 8-0] which is the monomeric inner ester of y-hydroxybutyric acid [591-81-17, is a large-volume chemical derived from 1,4-butanediol (see Acetylene-derived chemicals). 

P-Hydroxy acids lose water, especially in the presence of an acid catalyst, to give a,P-unsaturated acids, and frequendy P,y-unsaturated acids. P-Hydroxy acids do not form lactones readily because of the difficulty of four-membered ring formation. The simplest P-lactone, P-propiolactone, can be made from ketene and formaldehyde in the presence of methyl borate but not from P-hydroxypropionic acid. P-Propiolactone [57-57-8] is a usehil intermediate for organic synthesis but caution should be exercised when handling this lactone because it is a known carcinogen. 

A/-(P-hydroxy)ethyl- aceto acetamide [24309-97-5] mp 35—40 animal feed additive... 

Reaction of Bisglycinatocopper(II). Bisglycinatocopper(II) [13479-54-4] condenses with ahphatic aldehydes. Removal of copper from the condensate results in P-hydroxy-a-amino acid. This is a classical synthetic method of DL-threonine, but the formation of i //o-isomer is unavoidable. 

In the case of P-hydroxy-a-arnino acids, oxazoUdinone derivatives ate formed with retention of configuration. 

Biosynthesis. Biochemical studies on dalbaheptides have been reviewed (92,97). Experiments with and H have shown that in vancomycin (39), D-tyrosine is the precursor of D-/> -hydroxyphenyiglycine and P-hydroxy-y -chlorotyrosine, and acetate the precursor of the two y jy -dihydroxyphenyiglycines (98). Similar results using either or radioactively labeled material have been reported for avoparcin (Table 5) (23), ristocetin (Table 2) (99,100), ardacin (Table 3) (101), and A47934 (102). 

The Pictet-Gams method involves the cyclization of P-hydroxy- or P-methoxy- P-phenethylamides, and produces the isoquinoline derivative rather than the reduced form. A further extension of method is based on a metboxyetbyl amine. 

The reaction of ketene itself with tettaalkyl titanates followed by a ketone R R C=0 gives P-hydroxy-esters, R R C0HCH2C02R. Polyinsertion of ketene and aldehyde into the Ti—O bond leads to di-, tri-, and tetraesters, eg, H0CR R CH2C02CR R CH2C02R (200). 

In other work, sulfone chemistry plays an integral part of the syntheses of both -carotene and vitamin A by workers at Kuraray. In this approach, the anion of C q P-cyclogeranyl sulfone (36) is condensed with the C q aldehyde (37). The resulting P-hydroxy sulfone (38) is treated with dihydropyran followed by a double elimination to yield vitamin A acetate. Alternatively, the P-hydroxy sulfone (38) can be converted to the 5-halo sulfone (39) and a similar double elimination scheme is employed (23,24) (Fig. 8). 

P-Hydroxy steroids which contain the 5,7-diene system and can be activated with uv light to produce vitamin D compounds are called provitamins. The two most important provitamins are ergosterol (1) and 7-dehydrocholesterol (3). They are produced in plants and animals, respectively, and 7-dehydrocholesterol is produced synthetically on a commercial scale. Small amounts of hydroxylated detivatives of the provitamins have been synthesized in efforts to prepare the metaboHtes of vitamin D, but these products do not occur naturally. The provitamins do not possess physiological activities, with the exception that provitamin D is found in the skin of animals and acts as a precursor to vitamin D, and synthetic dihydroxalated... 

A second, conceptually distinct chiral synthesis of monobactams was developed from P-hydroxy amino acids. As shown in Figure 2, cycli2ation of the acylsulfamate of an amino-protected 0-mesylserine derivative (14, R = H) leads directiy to the monobactam (15). This methodology was also appHed to the synthesis of 4a- (15, R = CH ) and 4P-methyl monobactams from L-threonine and aHothreonine, respectively (17). The... 

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