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Amino acids chelate compounds

Allyltrialkoxy- or -tris(dialkylamino)titanium reagents are not capable of chelation-controlled addition reactions with oxy- or amino-substituted carbonyl compounds due to their low Lewis acidity87. To attain chelation control, the application of allylsilanes (Section 1.3.3.3.5.2.2.) and allylstannanes (Section I.3.3.3.6.I.3.2.) in the presence of bidentate Lewis acids like titanium(IV) chloride, tin(lV) chloride or magnesium bromide are the better options. [Pg.417]

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... [Pg.468]

In 1970s, first application of metal-chelate affinity chromatography which is later named as "immobilized-metal (ion) affinity chromatography (IMAC) was perfomed. Metal-chelate chromatography technique exploits selective interactions and affinity between transition metal immobilized on a solid support (resin) via a metal chelator and amino acid residues which act as electron donors in the protein of interest [25-26]. As well as aromatic and heterocyclic compounds, proteins such as histidine, tyrosine, tyriptophane and phenylalanine posses affinity to transition metals which form complexes with compounds rich in electrons [25,27]. [Pg.90]

Based on preliminary results from Helfferich130, further developments by Davankov and co-workers5 131 133 turned the principle of chelation into a powerful chiral chromatographic method by the introduction of chiral-complex-forming synlhetie resins. The technique is based on the reversible chelate complex formation of the chiral selector and the selectand (analyte) molecules with transient metal cations. The technical term is chiral ligand exchange chromatography (CLEC) reliable and complete LC separation of enantiomers of free a-amino acids and other classes of chiral compounds was made as early as 1968 131. [Pg.214]

As expected, system 13 did in fact bind and transport zwitterionic a-amino acids through a model membrane barrier with good selectivity under conditions where the porphyrin-derived control system (14), lacking the carboxylate anion chelation ability inherent in 13, would not. Specifically, it was found that at neutral pH compound 13 acts as a very efficient carrier for the through model membrane (H2O-CH2CI2-H2O) transport of phenylalanine and tryptophan. Further, in direct competition experiments, L-phenylalanine was found to be transported four times faster than L-tryptophan and 1000 times faster than L-tyrosine. As implied above, little or no transport was observed when a porphyrin control (14) was used. Nor was significant transport observed when a mixture of sapphyrin and lasalocid was used. [Pg.121]

On the basis of this evidence it was postulated that a 1 to 1 complex is formed between the metal ion and the amino acid ester, in which the metal ion chelates with the amino group and the carbonyl oxygen of the ester, and that this chelate is attacked by hydroxide ion to give the products of reaction through the intermediate formation of a tetrahedral addition compound. [Pg.27]


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See also in sourсe #XX -- [ Pg.178 ]




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Amino acids compounds

Amino compounds

Chelating compounds

Chelation compounds

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