Glycine chirality

L. W. Dudycz, Stereoselective synthesis of 6-amino-5,6-ribo-heptafuranouronates with the aid of glycine chiral templates, Nucleosides Nucleotides 10329 (1991). 

L. W. Dut cz, Stereoselective synthesis of 6-amiiio-5,6-dideoxy-D-n M7-heptafonuiotttoaates with die aid of glycine chiral t q>lates. Nucleosides Nucleotides 10 319 (1991). 

Diazepam, prazepam, and three of their metabolites—nordiazepam, (2R)- and (3S)-hydroxyprazepam— were baseline resolved on an (I )-(3,5-dintirophenylbenzoyl)-glycine chiral phase = 232 nm) using a 77/20/3 hexane/dichloromethanc/IPA mobile phase [731]. Elution was complete in <20 min and excellent peak shapes... 

Simple esters cannot be allylated with allyl acetates, but the Schiff base 109 derived from o -amino acid esters such as glycine or alanine is allylated with allyl acetate. In this way. the o-allyl-a-amino acid 110 can be prepared after hydrolysis[34]. The Q-allyl-o-aminophosphonate 112 is prepared by allylation of the Schiff base 111 of diethyl aminomethylphosphonates. [35,36]. Asymmetric synthesis in this reaction using the (+ )-A, jV-dicyclohex-ylsulfamoylisobornyl alcohol ester of glycine and DIOP as a chiral ligand achieved 99% ec[72]. 

Glycine is the simplest ammo acid and the only one m Table 27 1 that is achiral The a carbon atom is a chirality center m all the others Configurations m ammo acids are normally specified by the d l notational system All the chiral ammo acids obtained from proteins have the l configuration at their a carbon atom meaning that the amine group IS at the left when a Fischer projection is arranged so the carboxyl group is at the top... 

Except for glycine which is achiral all of the a ammo acids present m proteins are chiral and have the l configuration at the a carbon... 

The four groups attached to the Cq atom are chemically different for all the amino acids except glycine, where two H atoms bind to Cq. All amino acids except glycine are thus chiral molecules that can exist in two different forms with different "hands," L- or D-form (Figure 1.3). 

The chromatographic resolution of bi-naphthol enantiomers was considered for simulation purposes [18]. The chiral stationary phase is 3,5-dinitrobenzoyl phenyl-glycine bonded to silica gel and a mixture of 72 28 (v/v) heptane/isopropanol was used as eluent. The adsorption equilibrium isotherms, measured at 25 °C, are of bi-Langmuir type and were proposed by the Separex group ... 

In all the amino acids shown in Table 23.3 except glycine, the a-carbon is chiral. This means that these compounds are optically active. With alanine, for example, there should be two optical isomers ... 

An application of this method is the enantioselective synthesis of a-amino acids [e.g., (5)-phenyl-glycine (11)]10. Hence, 8 can be regarded as a chiral synthetic equivalent of a carboxyl group. 

Only one example, showing high stereoselectivity, is known in this class of reactions. On treatment of the acyclic glycine cation equivalent 1 (see Appendix), containing the ( + )-cam-phor-10-sulfonamide ester as a chiral auxiliary, with boron trifluoridc and anisole at 0"C a mixture of aromatic substitution products is obtained in essentially quantitative yield 55. Besides 11 % of cuV/io-substitution product, the mixture contains (R,S)-2 and its (/ ,/ )-epimer in a ratio >96 4 (NMR). The same stereoisomer 2 predominates when the reaction is conducted in sulfuric acid/acetic acid 1 9, although the selectivity is slightly lower (91 9 besides 25% of ortho substitution). 

Ethyl (bornylideneamino)acetate (2) and the imines of (-)-(lf ,2, 5 )-2-hydroxy-3-pinanone and glycine, alanine and norvaline methyl esters were particularly successful as Michael donors. The chiral azaallyl anions, derived from these imines by deprotonation with lithium diisopropylamide in THF at — 80 C, add to various a,/i-unsaturated esters with modest to high diastereoselectivity (see Section 1.5.2.4.2.2.5.). Thus, starting with the imine 2, (R1 = CH,) and ethyl ( )-2-butcnoate, the a,/i-dialkylated glutamate derivative 3 is obtained as a single diastercomer in 90% yield91-92. 

Diastereoselective preparation of a-alkyl-a-amino acids is also possible using chiral Schiff base nickel(II) complexes of a-amino acids as Michael donors. The synthetic route to glutamic acid derivatives consists of the addition of the nickel(II) complex of the imine derived from (.S )-,V-[2-(phenylcarbonyl)phenyl]-l-benzyl-2-pyrrolidinecarboxamide and glycine to various activated olefins, i.e., 2-propenal, 3-phenyl-2-propenal and a,(f-unsaturated esters93- A... 

Aldehydes, 43 a-Chiral, 112 a/MJnsaturated, 85,110 /3-Aldchydosi lanes, 22 Aldol reaction, directed, 139 Alkoxytrimethylsilanes, 122 Alkyl lithium. 67 Alkyl silyl ethers, 91-97,127 Alkylation, 33 of ethyl glycinate, 88-89 t-Alkylation, 111-135... 

I 7 Versatile Oligo(N-Substituted) Clycines The Many Roles of Peptoids in Drug Discovery Tab. 1.2 Examples of chiral a-methyl N-substituted glycine side chains... 

Fig. 1.6 A comparison of the CD spectra of oligopeptoids with achiral Npm side chains (1) and with a-chiral, aromatic sidechains of S and R chirality (2 and 6, respectively). Sample concentration was 60 j,M in acetonitrile. Spectra were acquired at room temperature. Npm = (N-[l-phenylmethyljglycine) Nspe= (S)-N-(l -phenylethyl)glycine Nrpe= (R)-N-(l -phenylethyl)glycine...

A peptoid pentamer of five poro-substituted (S)-N-(l-phenylethyl)glycine monomers, which exhibits the characteristic a-helix-like CD spectrum described above, was further analyzed by 2D-NMR [42]. Although this pentamer has a dynamic structure and adopts a family of conformations in methanol solution, 50-60% of the population exists as a right-handed helical conformer, containing all cis-amide bonds (in agreement with modeling studies [3]), with about three residues per turn and a pitch of 6 A. Minor families of conformational isomers arise from cis/trans-amide bond isomerization. Since many peptoid sequences with chiral aromatic side chains share similar CD characteristics with this helical pentamer, the type of CD spectrum described above can be considered to be indicative of the formation of this class of peptoid helix in general. 

Peptoids based on a-chiral aliphatic side chains can form stable helices as well [43]. A crystal of a pentameric peptoid homooligomer composed of homochiral N-(1-cyclohexylethyl)glycine residues was grown by slow evaporation from methanol solution, and its structure determined by X-ray crystallographic methods. In the crystalline state, this pentamer adopts a helical conformation with repeating cis-... 

---