Preparation of Optically Active Alkoxy-serines from Amino-amide Racemate Catalyzed by Escherichia coli Cells with Peptidase B Activity

Alkoxy-L-serines are useful for peptide syntheses. The demand for alkoxy-L-serines in the pharmaceutical industries continues to increase because of their multiple physiological effects. In this research, an improved method for alkoxy-L-serines synthesis is reported. A series of substrates, DL-fl-al...

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Published inChemical research in Chinese universities Vol. 29; no. 1; pp. 95 - 98
Main Authors Wang, Zhi-yuan, Liu, Jun-zhong, Xu, Li-sheng, Zhang, Hong-juan, Liu, Qian, Jiao, Qing-cai
Format Journal Article
LanguageEnglish
Published Heidelberg Jilin University and The Editorial Department of Chemical Research in Chinese Universities 01.02.2013
Subjects
Analytical Chemistry
Chemistry
Chemistry and Materials Science
Chemistry/Food Science
Inorganic Chemistry
L-丝氨酸
Organic Chemistry
Physical Chemistry
α-氨基
丙酰胺
光学活性
外消旋体
大肠杆菌细胞
烷氧基
肽酶
Enzymatic resolution
Peptidase B
Alkoxy-serine
amino propionamide
-
Alkoxy
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Summary:Alkoxy-L-serines are useful for peptide syntheses. The demand for alkoxy-L-serines in the pharmaceutical industries continues to increase because of their multiple physiological effects. In this research, an improved method for alkoxy-L-serines synthesis is reported. A series of substrates, DL-fl-alkoxy-a-amino propionamides, was used for the synthesis of alkoxy-serines catalyzed by Escherichia coli cells with peptidase B(PepB) activity. The results show that PepB has a high resolution activity with DL-fl-alkoxy-a-amino propionamides as substrate. Reaction conditions were optimized, i.e., DL-β-methoxy-a-amino propionamide as substrate at pH=9.0, 40 ℃ and 14 h, and the optimal reaction concentration is 400 mmol/L. The results also show that divalent metal cations exhibit different effects on the PepB activity, for example, Zn2+ and Cu2+ can obviously inhibit the activity of PepB, whereas Co2+, Ca2+, Mn〉 and Mg2+ at low concentrations can activate PepB. This research provides access to enantiomerically enriched and valuable alkoxy-L-serines from a simple amino-amide racemate.
Bibliography:Alkoxy-L-serines are useful for peptide syntheses. The demand for alkoxy-L-serines in the pharmaceutical industries continues to increase because of their multiple physiological effects. In this research, an improved method for alkoxy-L-serines synthesis is reported. A series of substrates, DL-fl-alkoxy-a-amino propionamides, was used for the synthesis of alkoxy-serines catalyzed by Escherichia coli cells with peptidase B(PepB) activity. The results show that PepB has a high resolution activity with DL-fl-alkoxy-a-amino propionamides as substrate. Reaction conditions were optimized, i.e., DL-β-methoxy-a-amino propionamide as substrate at pH=9.0, 40 ℃ and 14 h, and the optimal reaction concentration is 400 mmol/L. The results also show that divalent metal cations exhibit different effects on the PepB activity, for example, Zn2+ and Cu2+ can obviously inhibit the activity of PepB, whereas Co2+, Ca2+, Mn〉 and Mg2+ at low concentrations can activate PepB. This research provides access to enantiomerically enriched and valuable alkoxy-L-serines from a simple amino-amide racemate.
Alkoxy-serine; DL-β-Alkoxy-a-amino propionamide; Enzymatic resolution; Peptidase B
22-1183/06
ISSN:1005-9040
2210-3171
DOI:10.1007/s40242-012-2249-2