Amino configuration

Whereas SHMT in vivo has a biosynthetic function, threonine aldolase catalyzes the degradation of threonine both l- and D-spedfic ThrA enzymes are known [16,192]. Typically, ThrA enzymes show complete enantiopreference for their natural a-D- or a-t-amino configuration but, with few exceptions, have only low specificity for the relative threo/erythro-configuration (e.g. (122)/(123)) [193]. Likewise, SHMT is highly selective for the L-configuration, but has poor threo/erythro selectivity [194]. For biocatalytic applications, the knovm SHMT, d- and t-ThrA show broad substrate tolerance for various acceptor aldehydes, notably induding aromatic aldehydes [193-196] however, a,P-unsaturated aldehydes are not accepted [197]. For preparative reactions, excess of (120) must compensate for the unfavorable equilibrium constant [34] to achieve economical yields. 

The same nomenclature has been adopted for amino-acids, the configurational family to which the a-carbon atom belongs being denoted by the prefixes d- and L-. 

Similarly, A[-carboxy-a-amino acid anhydrides react with aromatics such as toluene, xylenes, and mesitylene to give a-amino acylated products ia moderate yields with almost complete retention of configuration of the a-amino acid. 

Oxazol-5(2H)-one, 2-benzylidene-4-methyl-tautomerism, 6, 186 Oxazol-5(2ff)-one, 2-methylene-isomerization, 6, 226 Oxazol-5(2H)-one, 2-trifluoromethyl-acylation, 6, 201 Oxazol-5(4ff)-one, 4-allyl-thermal rearrangements, 6, 199 Oxazol-5(4H)-one, 4(arylmethylene)-Friedel-Crafts reactions, 6, 205 geometrical isomerism, 6, 185 Oxazol-5(4ff)-one, 4-benzylidene-2-phenyl-configuration, 6, 185 photorearrangement, 6, 201 Oxazol-5(4ff)-one, 4-benzyl-2-methyl-Friedel-Crafts reactions, 6, 205 Oxazol-5(4ff)-one, 4-methylene-in amino acid synthesis, 6, 203 Oxazol-5(4ff) -one. 2-trifluoromethyl-hydrolysis, 6, 206 Oxazolones... 

Polypeptides. These are a string of a-amino acids usually with the natural 5(L) [L-cysteine is an exception and has the R absolute configuration] or sometimes "unnatural" 7f(D) configuration at the a-carbon atom. They generally have less than -100 amino acid residues. They can be naturally occurring or, because of their small size, can be synthesised chemically from the desired amino acids. Their properties can be very similar to those of small proteins. Many are commercially available, can be custom made commercially or locally with a peptide synthesiser. They are purified by HPLC and can be used without further purification. Their purity can be checked as described under proteins. 

Where R H the amino acids may incorporated in either a D- or L-configuration and so it is possible for configurational polymers to be produced. There do not, however, show the same mechanical properties as the configurational homopolymers, which are more regular in structure. 

The amino acids found in proteins have the L-configuration, as illustrated for alanine, serine, and leucine. 

Depending on the stereoselectivity of the reaction, either the or the 5 configuration can generated at C-2 in the product. This corresponds to enantioselective synthesis of the d md L enantiomers of a-amino acids. Hydrogenation using chiral catalysts has been carefully investigated. The most effective catalysts for the reaction are ihodiiun... 

D-Amino acid oxidase will oxidase only serine having the R configuration at C-2. Glycolate oxidase will remove only the prv-R hydrogen of glycolic acid Does the product (0=CHC02H) contain tritium Explain your reasoning. 

An amino acid having the constitution shown has been isolated from horse chestnuts. It is configurationally related to L-proline and has the R configxuation at C-3. Write a stereochemically correct representation for this compoimd. 

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