Amino acids alcohol formation

From a preparative point of view, it is essential that B0C2O reacts much more rapidly with the carboxy late function than with the nucleophile. The reaction has been applied to the synthesis of aryl and alkyl esters and anilides such as o-nitrophenyl, benzyl, or tri-fluoroethyl esters and p-nitroanilides of A-protected amino acids. The formation of esters derived from secondary alcohols (ben-zhydryl, menthyl, or cholesteryl esters) is accelerated by addition of DMAP. Depsipeptides are obtained in good yields. DMAP is a necessary catalyst for the synthesis of r-butyl esters and the esterification of A-protected amino acids occurs without epimerization. ... 

Formation of Diketopiperazines. Esters of a-amino acids can be readily prepared by refluxing anhydrous alcoholic suspensions of a-amino acids saturated with dry HQ. Diketopiperazines are formed by heating the alcohohc solution of the a-amino acid ester. 

In acidic solution, the degradation results in the formation of furfural, furfuryl alcohol, 2-furoic acid, 3-hydroxyfurfural, furoin, 2-methyl-3,8-dihydroxychroman, ethylglyoxal, and several condensation products (36). Many metals, especially copper, cataly2e the oxidation of L-ascorbic acid. Oxalic acid and copper form a chelate complex which prevents the ascorbic acid-copper-complex formation and therefore oxalic acid inhibits effectively the oxidation of L-ascorbic acid. L-Ascorbic acid can also be stabilized with metaphosphoric acid, amino acids, 8-hydroxyquinoline, glycols, sugars, and trichloracetic acid (38). Another catalytic reaction which accounts for loss of L-ascorbic acid occurs with enzymes, eg, L-ascorbic acid oxidase, a copper protein-containing enzyme. 

The procedure described is essentially that of Shioiri and Yamada. Diphenyl phosphorazidate is a useful and versatile reagent in organic synthesis. It has been used for racemlzatlon-free peptide syntheses, thiol ester synthesis, a modified Curtius reaction, an esterification of a-substituted carboxylic acld, formation of diketoplperazines, alkyl azide synthesis, phosphorylation of alcohols and amines,and polymerization of amino acids and peptides. - Furthermore, diphenyl phosphorazidate acts as a nitrene source and as a 1,3-dipole.An example in the ring contraction of cyclic ketones to form cycloalkanecarboxylic acids is presented in the next procedure, this volume. 

Step from general acid-catalyzed formation of immonium ions to general base-catalyzed hydration of these ions to the amino alcohol [Eq. (6)]. 

Several methods for asymmetric C —C bond formation have been developed based on the 1,4-addition of chiral nonracemic azaenolates derived from optically active imines or enamines. These methods are closely related to the Enders and Schollkopf procedures. A notable advantage of all these methods is the ready removal of the auxiliary group. Two types of auxiliaries were generally used to prepare the Michael donor chiral ketones, such as camphor or 2-hydroxy-3-pinanone chiral amines, in particular 1-phenylethanamine, and amino alcohol and amino acid derivatives. 

Nishimura and coworkers57-59 studied the y-radiolysis of aqueous solutions of sulfoxide amino acids. Sulfoxide amino acids are the precursors of the flavors of onions (S-propyl-L-cysteine sulfoxide, S-methyl-L-cysteine sulfoxide and S-(l-propenyl)-L-cysteine sulfoxide) and garlic (S-allyl-L-cysteine sulfoxide). In studies on sprout inhibition of onion by /-irradiation it was found that the characteristic flavor of onions became milder. In the y-radiolysis of an aqueous solution of S-propyl-L-cysteine sulfoxide (PCSO)57,58 they identified as the main products alanine, cysteic acid, dipropyl disulfide and dipropyl sulfide. In the radiolysis of S-allyl-L-cysteine sulfoxide (ACSO) they found that the main products are S-allyl-L-cysteine, cysteic acid, cystine, allyl alcohol, propyl allyl sulfide and diallyl sulfide. The mechanisms of formation of the products were partly elucidated by the study of the radiolysis in the presence of N20 and Br- as eaq - and OH radicals scavengers, respectively. 

Certain alkylated ammonium, phosphonium, or sulfonium compounds are effective, in relatively low concentrations, in interfering with the growth of gas hydrate crystals [972] and therefore are useful in inhibiting plugging by gas hydrates in conduits containing low-boiling hydrocarbons and water. For example, tetrabutylammonium bromide will be active. Gas hydrate or ice formation is further inhibited in lines by adding amino acids or amino alcohols [523]. 

The transformation of the cyano group could also introduce a new chiral center under diastereoselective control (Figure 5.13). Grignard-transimination-reduction sequences have been employed in a synthesis of heterocyclic analogues of ephedrine [81]. The preferential formation of erythro-/3-amino alcohols may be explained by preferential hydride attack on the less-hindered face of the intermediate imine [82], and hydrocyanation of the imine would also appear to proceed via the same type of transition state. In the case of a,/3-unsaturated systems, reduction- transimination-reduction may be followed by protection of the /3-amino alcohol to an oxazolidinone, ozonolysis with oxidative workup, and alkali hydrolysis to give a-hydroxy-/3-amino acids [83]. This method has been successfully employed in the synthesis L-threo-sphingosine [84]. 

When sulfamate esters 114 are used as substrates, six-membered-ring formation is favored, and results in the selective formation of 1,2,3-oxathiazinane-2,2-dioxide heterocycles 115.251 Nevertheless, five-membered cyclic sulfamidates could be obtained when no alternative cyclization was possible. 1,3-Amino alcohols and related /2-amino acids are thus readily accessible from the same simple alcohols 113 by converting them into sulfamates 114 (Equation (90)). Furthermore, in comparison to the carbamate reaction (Scheme 9), the sulfamate substrates have... 

One application in liquid chromatography which does alter the separation process is the use of a specific series of derivatives to enable the separation of chiral (optical isomers) forms of alcohols, amines and amino acids using reverse-phase separation. FLEC is available in the two chiral forms (+)-l-(9-fluorenyl) ethyl chloroformate and (—)-l-(9-fluorenyl) ethyl chlorofor-mate (Figure 3.12). Reaction of two stereoisomers of a test compound (e.g. T+ and T—) with a single isomer of the derivatizing reagent (e.g. R+) will result in the formation of two types of product, T+R+ and T—R+. It is possible to separate these two compounds by reverse-phase chromatography. 

A practical enzymatic procedure using alcalase as biocatalyst has been developed for the synthesis of hydrophilic peptides.Alcalase is an industrial alkaline protease from Bacillus licheniformis produced by Novozymes that has been used as a detergent and for silk degumming. The major enzyme component of alcalase is the serine protease subtilisin Carlsberg, which is one of the fully characterized bacterial proteases. Alcalase has better stability and activity in polar organic solvents, such as alcohols, acetonitrile, dimethylformamide, etc., than other proteases. In addition, alcalase has wide specificity and both l- and o-amino acids that are accepted as nucleophiles at the p-1 subsite. Therefore, alcalase is a suitable biocatalyst to catalyse peptide bond formation in organic solvents under kinetic control without any racemization of the amino acids (Scheme 5.1). 

Separation is based on the reversible chelate-complex formation between the chiral selector covalently bonded to the chromatographic support, and the chiral solute with transition metal cations. Chelation properties of both the chiral selector and the chiral solute are required. Compounds therefore need to have two polar functional groups in a favorable arrangement to each other, like a )3-amino acids, amino alcohols and a-hydroxy acids, which can form rings membered with central chelating metal ions, like Cu(II), Zn(II), Cyclic... 

The concentrations of amino acids in plasma of normal subjects and in cirrhotic patients were 2.6 and 3.5 mmol/L, respectively. To raise the plasma concentration, amino acids were infused. Note a much lower rate of urea formation in patients with a damaged Uver. Cirrhosis is characterised by deposition of collagen in the Uver and arises from a variety of causes a virus infection, deposition of fat in the Uver, undemutrition or chronic and excessive consumption of alcohol. 

The mechanism of the photochemical alkylation shows particular characteristics as regards the formation of alkyl radicals, the reaction of these radicals with the heteroaromatic substrates, and the rearomatization of the intermediate products. A variety of alkylating agents (hydrocarbons, alcohols, amines, carboxylic acids, amino acids) have been used for photochemical and y-ray-induced alkylation. " ... 

In the ring closures of the 1,2-disubstituted 1,3-difunctional cyclohexane, cycloheptane, and cyclooctane derivatives discussed in Sections II,A,B, and C, no appreciable differences were found in the reactivities of the cis and trans isomers. In contrast, very significant differences were observed in the cyclization reactivities of the cis and trans 1,2-disubstituted 1,3-difunctional cyclopentane derivatives, such as 1,3-amino alcohols, 2-hydroxy-l-carboxamides or /S-amino acids. Whereas the cis isomers reacted readily, their trans counterparts did not undergo ring closure in most cases. This difference was manifested in the formation of both d - and e -fused derivatives. 

The anodic oxidation of N-acyl a-amino acids in an alcohol solvent leads to the formation of N-acyl a-alkoxyaraines. This route is an alternative to the direct oxi-... 

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