H-Gly-DL-Asp-OH
H-Gly-DL-Asp-OH structure
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Common Name | H-Gly-DL-Asp-OH | ||
|---|---|---|---|---|
| CAS Number | 79731-35-4 | Molecular Weight | 190.15400 | |
| Density | 1.499 g/cm3 | Boiling Point | 468.7ºC at 760 mmHg | |
| Molecular Formula | C6H10N2O5 | Melting Point | 199-202℃ | |
| MSDS | USA | Flash Point | 237.3ºC | |
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Purification, characterization, and localization of aspartoacylase from bovine brain.
J. Neurochem. 56(1) , 129-35, (1991) Canavan disease, an autosomal recessive disorder, is characterized biochemically by N-acetylaspartic aciduria and aspartoacylase (N-acyl-L-aspartate amidohydrolase; EC 3.5.1.15) deficiency. However, the role of aspartoacylase and N-acetylaspartic acid in brai... |
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Conformation and structure of acidic dipeptides. Crystal structure of glycyl-L-aspartic acid dihydrate.
Int. J. Pept. Protein Res. 19(2) , 206-11, (1982) The crystal structure of the acidic dipeptide glycyl-L-aspartic acid dihydrate, Gly-L-Asp X 2H2O, C6H10N2O5 X 2H2O, has been determined by means of three-dimensional counter X-ray data. The dipeptide crystallizes in space group P212121 of the orthorhombic sys... |
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Reduction of vanadium(V) to vanadium(IV) by NADPH, and vanadium(IV) to vanadium(III) by cysteine methyl ester in the presence of biologically relevant ligands.
Biochim. Biophys. Acta 1770(8) , 1212-8, (2007) To better understand the mechanism of vanadium reduction in ascidians, we examined the reduction of vanadium(V) to vanadium(IV) by NADPH and the reduction of vanadium(IV) to vanadium(III) by L-cysteine methyl ester (CysME). UV-vis and electron paramagnetic re... |
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Metal complexes of taurine. The first reported solution equilibrium studies for complex formation by taurine at physiological pH; the copper(II)-glycylglycinate-taurine and the copper(II)-glycylaspartate-taurine systems.
J. Inorg. Biochem. 77(3-4) , 135-9, (1999) The first solution studies at physiological pH for the formation of metal complexes of taurine, +NH3CH2CH2S03-, one of the most abundant low molecular weight organic compounds in the animal kingdom, are reported. The complexes Cu(Gly-GlyH-1) (1) and [Cu(Gly-A... |
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Conformation and structure of bis(glycyl-L-aspartic acid) oxalate 0.4-hydrate.
Acta Crystallogr. C 63(Pt 1) , o11-3, (2007) The title bis(glycyl-L-aspartic acid) oxalate complex {systematic name: bis[2-(2-ammonioacetamido)butanedioic acid] oxalate 0.4-hydrate}, 2C6H11N2O5+.C2O4(2-).4H2O, crystallizes in a triclinic space group with the planar peptide unit in a trans conformation. ... |
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Chiral separation of amino acids and glycyl dipeptides by chiral ligand-exchange capillary electrophoresis comparing Cu(II), Co(II), Ni(II) and Zn(II) complexes of three different sugar acids.
J. Chromatogr. A. 1204 , 210-218, (2008) This paper deals with comparative studies on the use of copper(II), cobalt(II), nickel(II) and zinc(II) complexes of d-gluconic acid, d-saccharic acid and l-threonic acid as chiral selectors for the enantioseparation of aromatic amino acids and glycyl dipepti... |
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Enantioseparation of glycyl-dipeptides by CEC using particle-loaded monoliths prepared by ring-opening metathesis polymerization (ROMP).
J. Biochem. Biophys. Methods 69 , 67-77, (2006) Novel particle-loaded monolithic capillary electrochromatography (CEC) phases for chiral separations were prepared via ring-opening metathesis polymerization (ROMP) within the confines of fused silica columns with 200 microm i.d. using norborn-2-ene (NBE), 1,... |
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Enantioseparation of dipeptides and tripeptides by micro-HPLC comparing teicoplanin and teicoplanin aglycone as chiral selectors.
J. Biochem. Biophys. Methods 61 , 1-10, (2004) Chiral separation of glycyl- and diastereomeric dipeptides and tripeptides was performed by micro-HPLC using macrocyclic antibiotics as chiral selectors. Teicoplanin was compared with teicoplanin aglycone (TAG) regarding selectivity, efficiency and separation... |
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Fast chiral separation by ligand-exchange HPLC using a dynamically coated monolithic column.
J. Sep. Sci. 29 , 1470, (2006) The preparation and application of dynamically coated ligand-exchange chromatography phases for enantioseparation is described. The phases were prepared by pumping a solution of N-decyl-L-4-hydroxyproline, N-hexadecyl-L-4-hydroxyproline, or N-2-hydroxydodecyl... |
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Enantiomeric separation of glycyl dipeptides by capillary electrophoresis with cyclodextrins as chiral selectors.
Electrophoresis 20 , 3417-3424, (1999) Uncharged cyclodextrins were tested as chiral selectors for the enantiomeric separation of 13 glycyl dipeptides with capillary electrophoresis. Initial experiments were performed on 10 mmol/L of a cyclodextrin in 0.1 mol/L phosphoric acid -0.088 mol/L trietha... |