Serine 7-alkyl

Plasmalogens are ether glycerophospholipids in which the alkyl moiety is d5-a,/3-unsaturated (Figure 8.10). Common plasmalogen head groups include choline, ethanolamine, and serine. These lipids are referred to as phosphati-dal choline, phosphatidal ethanolamine, and phosphatidal serine. 

An antipsychotic agent with a chemical structure somewhat similar to that of tioperidone (59) is ket an serin (68). The synthesis involves the straightforward thermal alkylation of... 

Serine can be synthesized by a simple variation of the amidomalonate method using formaldehyde rather than an alkyl halide. Plow might this be done ... 

The synthesis of the E-ring intermediate 20 commences with the methyl ester of enantiomerically pure L-serine hydrochloride (22) (see Scheme 9). The primary amino group of 22 can be alkylated in a straightforward manner by treatment with acetaldehyde, followed by reduction of the intermediate imine with sodium borohydride (see 22 —> 51). The primary hydroxyl and secondary amino groups in 51 are affixed to adjacent carbon atoms. By virtue of this close spatial relationship, it seemed reasonable to expect that the simultaneous protection of these two functions in the form of an oxazolidi-none ring could be achieved. Indeed, treatment of 51 with l,l -car-bonyldiimidazole in refluxing acetonitrile, followed by partial reduction of the methoxycarbonyl function with one equivalent of Dibal-H provides oxazolidinone aldehyde 52. 

The optically active oxazolidinone derivative 3, readily obtainable from serine (see Appendix), is alkylated to give predominantly the cw-product98. The auxiliary is removed by acid hydrolysis to give the 2-amino alcohol. 

These compounds constimte as much as 10% of the phospholipids of brain and muscle. StmcmraUy, the plasmalogens resemble phosphatidylethanolamine but possess an ether link on the sn- carbon instead of the ester link found in acylglycerols. Typically, the alkyl radical is an unsamrated alcohol (Figure 14-10). In some instances, choline, serine, or inositol may be sub-stimted for ethanolamine. 

QUINONE METHIDES AND AZA-QUINONE METHIDES AS LATENT ALKYLATING SPECIES IN THE DESIGN OF MECHANISM-BASED INHIBITORS OF SERINE PROTEASES AND p-LACTAMASES... 

Rapid monoalkylations are achieved in good yield compared with classical methods. Of particular interest is the synthesis of ot-amino acids by alkylation of aldimines with microwave activation. Subsequent acidic hydrolysis of the alkylated imine provides leucine, serine, or phenylalanine in preparatively useful yields within 1-5 min [50], Alkylation of phenylacetonitrile was performed by solid-liquid PTC in 1-3 min under microwave irradiation (Eq. 36 and Tab. 5.14). The nitriles obtained can subsequently be quickly hydrolyzed in a microwave oven to yield the corresponding amides or acids [56]. 

To carry out 1,3-dipolar cycloadditions with alkyl acrylates, nitrones of various structures such as ferrocenylnitrones (141), nitrones derived from chiral amino acids (210), L-serine-derived nitrones (660) and N -substituted C -phosphorylated nitrones (263) have been used. 

Serine esters can be O-alkylated without concomitant A -alkylation, when the amino group is protected as its trityl derivative. The reaction is generally high yielding under relatively mild conditions [33], particularly with the more reactive allyl and benzyl halides. 

The reaction of acceptor-substituted carbene complexes with alcohols to yield ethers is a valuable alternative to other etherification reactions [1152,1209-1211], This reaction generally proceeds faster than cyclopropanation [1176], As in other transformations with electrophilic carbene complexes, the reaction conditions are mild and well-suited to base- or acid-sensitive substrates [1212], As an illustrative example, Experimental Procedure 4.2.4 describes the carbene-mediated etherification of a serine derivative. This type of substrate is very difficult to etherify under basic conditions (e.g. NaH, alkyl halide [1213]), because of an intramolecular hydrogen-bond between the nitrogen-bound hydrogen and the hydroxy group. Further, upon treatment with bases serine ethers readily eliminate alkoxide to give acrylates. With the aid of electrophilic carbene complexes, however, acceptable yields of 0-alkylated serine derivatives can be obtained. 

The breaking of bond c is going to be less common than deprotonation or decarboxylation. In most amino acids, R is an alkyl group, so there is little chance of losing R as a cation. Indeed, the only occasions on which we can break bond c are when R is hydroxymethyl (as in serine) or a similar gronping... 

Such an intermediate is known to be formed in reactions catalyzed by trypsin, chymotrypsin, thrombin, other enzymes of the blood-clotting cascade (except angiotensinconverting enzyme, which is an aspartic protease). An acyl-serine intermediate is also formed in the acetylcholinesterase reaction. The active site serine of this enzyme and the serine proteases can be alkylated by diisopropyl-fluorophosphate. See also Active Site Titration... 

A sutfonylating agent (abbreviated PMSE) that irreversibly inhibits many serine esterases and serine proteases . Target enzymes usually react with PMSE and related alkylating agents through the activated imidazole group of a histidyl residue that is part of the catalytic triad. 

New methods for the synthesis of 2,4-disubstitued oxazoles are summarized in a recent review. 2-Alkyl-1,3-oxazoles bearing alkyl, aryl, or acyl substitution at C4 are common substructures in natural products. Examples include macrolides such as rhizoxin (4), hennoxazole A (5), and phorboxazole A (6), ° as well as many cyclic peptides that incorporate an oxazole subunit presumably derived from serine. ... 

Hoechst has reported an enantioselective approach toward the key azabicyclo[3.3.0] octane-3-carboxylic acid 46 that preserves the stereochemistry of the L-serine-derived starting material (Urbach and Henning, 1991). L-Serine methyl ester (48) was alkylated... 

The authors applied the same synthetic strategy to racemic 4-alkyl -(iodo-methyl)-2-phenyl-5(4/ )-oxazolones 266 and obtained a diastereomeric mixture of oxazolines 267 and 268 (Scheme 7.86). The diastereoisomers were separated chromatographicaUy and then converted into dipeptides incorporating an a-alkyl-serine residue. ... 

---