D-Homoserine
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D-Homoserine

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Category
D-Amino Acids
Catalog number
BAT-007217
CAS number
6027-21-0
Molecular Formula
C4H9NO3
Molecular Weight
119.12
D-Homoserine
IUPAC Name
(2R)-2-amino-4-hydroxybutanoic acid
Synonyms
D-HomoSer-OH; D-2-Amino-4-hydroxybutyric acid; (R)-2-Amino-4-hydroxybutyric acid; D HomoSer OH
Related CAS
1927-25-9 (DL-isomer)
Appearance
White crystals
Purity
≥ 99% (TLC)
Density
1.312 g/cm3
Melting Point
201-209 °C
Boiling Point
368.7 °C at 760 mmHg
Storage
Store at 2-8 °C
InChI
InChI=1S/C4H9NO3/c5-3(1-2-6)4(7)8/h3,6H,1-2,5H2,(H,7,8)/t3-/m1/s1
InChI Key
UKAUYVFTDYCKQA-GSVOUGTGSA-N
Canonical SMILES
C(CO)C(C(=O)O)N
1.A Simple Enzymatic Method for Production of a Wide Variety of D-Amino Acids Using L-Amino Acid Oxidase from Rhodococcus sp. AIU Z-35-1.
Isobe K1, Tamauchi H, Fuhshuku K, Nagasawa S, Asano Y. Enzyme Res. 2010 Aug 5;2010:567210. doi: 10.4061/2010/567210.
A simple enzymatic method for production of a wide variety of D-amino acids was developed by kinetic resolution of DL-amino acids using L-amino acid oxidase (L-AAO) with broad substrate specificity from Rhodococcus sp. AIU Z-35-1. The optimum pH of the L-AAO reaction was classified into three groups depending on the L-amino acids as substrate, and their respective activities between pH 5.5 and 8.5 accounted for more than 60% of the optimum activity. The enzyme was stable in the range from pH 6.0 to 8.0, and approximately 80% of the enzyme activity remained after incubation at 40°C for 60 min at pH 7.0. D-Amino acids such as D-citrulline, D-glutamine, D-homoserine or D-arginine, which are not produced by D-aminoacylases or D-hydantoinases, were produced from the racemic mixture within a 24-hr reaction at 30°C and pH 7.0. Thus, the present method using L-AAO was versatile for production of a wide variety of D-amino acids.
2.Structure of the O-antigen of Acinetobacter lwoffii EK30A; identification of d-homoserine, a novel non-sugar component of bacterial polysaccharides.
Arbatsky NP1, Kondakova AN, Shashkov AS, Drutskaya MS, Belousov PV, Nedospasov SA, Petrova MA, Knirel YA. Org Biomol Chem. 2010 Aug 7;8(15):3571-7. doi: 10.1039/c004090h. Epub 2010 Jun 10.
We established a peculiar structure of the O-specific polysaccharide (O-antigen) of a psychrotrophic strain of Acinetobacter lwoffii, EK30A, isolated from a 1.6-1.8 million-year-old Siberian permafrost subsoil sediment sample. The polysaccharide was released by mild acid degradation of the lipopolysaccharide and studied using chemical analyses, Smith degradation, (1)H and (13)C NMR spectroscopy and mass spectrometry. It was found to contain d-homoserine, which is N-linked to 4-amino-4,6-dideoxy-d-glucose (Qui4N) and is N-acylated itself with acetyl in about half of the repeating units or (S)-3-hydroxybutanoyl group in the other half. The following is the structure of the tetrasaccharide repeating unit of the polysaccharide: -->3)-beta-d-Quip4NAcyl-(1-->6)-alpha-d-Galp-(1-->4)-alpha-d-GalpNAc-(1-->3)-alpha-d-FucpNAc-(1--> where Acyl stands for either N-acetyl- or N-[(S)-3-hydroxybutanoyl]-d-homoseryl.
3.Engineering d-amino acid containing novel protease inhibitors using catalytic site architecture.
Annedi SC1, Biabani F, Poduch E, Mannargudi BM, Majumder K, Wei L, Khayat R, Tong L, Kotra LP. Bioorg Med Chem. 2006 Jan 1;14(1):214-36. Epub 2005 Sep 29.
The mechanism of proteolysis by serine proteases is a reasonably well-understood process. Typically, a histidine residue acting as a general base deprotonates the catalytic serine residue and the hydrolytic water molecule. We disclose here, the use of an unnatural d-amino acid as a strategic residue in P1 position, designed de novo based on the architecture of the protease catalytic site to impede the catalytic histidine residue at the stage of acyl-enzyme intermediate. Several probe molecules containing d-homoserine or its derivatives at P1 position are evaluated. Compounds 1, 6, and 8-10 produced up to 57% loss of activity against chymotrypsin. More potent and specific inhibitors could be designed with structure optimization as this strategy is completely general and can be used to design inhibitors against any serine or cysteine protease.
4.Determination of D-serine in human serum by LC-MS/MS using a triazole-bonded column after pre-column derivatization with (S)-4-(3-isothiocyanatopyrrolidin-1-yl)-7- (N, N-dimethylaminosulfonyl)-2,1,3-benzoxadiazole.
Sakamoto T1, Kuwabara R1, Takahashi S1, Onozato M1, Ichiba H1, Iizuka H1, Fukushima T2. Anal Bioanal Chem. 2016 Jan;408(2):517-26. doi: 10.1007/s00216-015-9119-y. Epub 2015 Nov 5.
An LC-MS/MS-based method for determining D-serine (Ser), an endogenous co-agonist of the N-methyl-D-aspartate receptor, in human serum, was developed and validated using a triazole-bonded silica-packed column after pre-column fluorescence derivatization with a chiral labeling reagent, (S)-4-(3-isothiocyanatopyrrolidin-1-yl)-7-(N,N-dimethylaminosulfonyl)-2,1,3-benzoxadiazole. Enantiomeric separation of the D- and L-Ser derivatives occurred in the triazole-bonded column (R s: 1.85) with CH3CN/100 mM HCO2NH4 in H2O (95.5:4.5) as the mobile phase with isocratic elution. The ln(capacity factor of D-Ser) in the van't Hoff plot gradually decreased with the inverse of temperature, suggesting enhanced hydrophilic interactions with the triazole-bonded stationary phase with increasing column temperature, owing to decrease in the partition coefficient to the mobile phase. Multiple reaction monitoring (m/z 457.10 > 409.00) by triple quadrupole mass spectrometry was used for quantifying D-Ser in human serum.
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