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用于核糖体肽基转移酶反应的同位素标记P位点底物的合成。

Synthesis of isotopically labeled P-site substrates for the ribosomal peptidyl transferase reaction.

作者信息

Zhong Minghong, Strobel Scott A

机构信息

Department of Molecular Biophysics and Biochemistry, Yale University, New Haven, Connecticut 06520-8114, USA.

出版信息

J Org Chem. 2008 Jan 18;73(2):603-11. doi: 10.1021/jo702070m. Epub 2007 Dec 15.

DOI:10.1021/jo702070m
PMID:18081346
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2855649/
Abstract

Isotopomers of the ribosomal P-site substrate, the trinucleotide peptide conjugate CCA-pcb (Zhong, M.; Strobel, S. A. Org. Lett. 2006, 8, 55-58), have been designed and synthesized in 26-35 steps. These include individual isotopic substitution at the alpha-hydrogen, carbonyl carbon, and carbonyl oxygen of the amino acid, the O2' and O3' of the adenosine, and a remote label in the N3 and N4 of both cytidines. These isotopomers were synthesized by coupling cytidylyl-(3',5')-cytidine phosphoramidite isotopomers as the common synthetic intermediates, with isotopically substituted A-Phe-cap-biotin (A-pcb). The isotopic enrichment is higher than 99% for 1-13C (Phe), 2-2H (Phe), and 3,4-15N2 (cytidine), 93% for 2'/3'-18 O (adenosine), and 64% for 1-18 O (Phe). A new synthesis of highly enriched [1-18 O2]phenylalanine has been developed. The synthesis of [3'-18 O]adenosine was improved by Lewis acid aided regioselective ring opening of the epoxide and by an economical SN2-SN2 method with high isotopic enrichment (93%). Such substrates are valuable for studies of the ribosomal peptidyl transferase reaction by complete kinetic isotope effect analysis and of other biological processes catalyzed by nucleic acid related enzymes, including polymerases, reverse transcriptases, ligases, nucleases, and ribozymes.

摘要

核糖体P位点底物三核苷酸肽共轭物CCA-pcb(钟,M.;斯特罗贝尔,S.A.《有机快报》,2006年,8卷,55 - 58页)的同位素异构体已通过26至35步反应设计并合成。这些包括在氨基酸的α-氢、羰基碳和羰基氧、腺苷的O2'和O3'以及两个胞苷的N3和N4处进行单个同位素取代。这些同位素异构体是通过将胞苷酰-(3',5')-胞苷亚磷酰胺同位素异构体作为常见合成中间体,与同位素取代的A - Phe - cap - 生物素(A - pcb)偶联合成的。对于1 - 13C(苯丙氨酸)、2 - 2H(苯丙氨酸)和3,4 - 第十五氮二(胞苷),同位素富集度高于99%;对于2'/3'-18O(腺苷)为93%;对于1 - 18O(苯丙氨酸)为64%。已开发出一种新的高富集[1 - 18O2]苯丙氨酸的合成方法。通过路易斯酸辅助的环氧化物区域选择性开环以及通过具有高同位素富集度(93%)的经济的SN2 - SN2方法改进了[3'-18O]腺苷的合成。此类底物对于通过完整动力学同位素效应分析研究核糖体肽基转移酶反应以及研究由核酸相关酶催化的其他生物过程,包括聚合酶、逆转录酶、连接酶、核酸酶和核酶,具有重要价值。

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