洋地黄毒糖基四环素霉素C和葡萄糖基四环素霉素C，是通过探索糖基转移酶ElmGT的糖供体底物特异性获得的两种新型埃洛霉素类似物。

Digitoxosyltetracenomycin C and glucosyltetracenomycin C, two novel elloramycin analogues obtained by exploring the sugar donor substrate specificity of glycosyltransferase ElmGT.

作者信息

Fischer Carsten, Rodríguez Leticia, Patallo Eugenio P, Lipata Fredilyn, Braña Alfredo F, Méndez Carmen, Salas Jose A, Rohr Jürgen

机构信息

Division of Pharmaceutical Sciences, College of Pharmacy, University of Kentucky, Lexington, Kentucky 40536, USA.

出版信息

J Nat Prod. 2002 Nov;65(11):1685-9. doi: 10.1021/np020112z.

DOI:10.1021/np020112z

PMID:12444703

Abstract

Our explorations of glycosyltransferase ElmGT from Streptomyces olivaceus Tü 2353, which shows an interesting flexibility regarding its sugar donor substrate, were extended toward various previously unexplored sugar co-substrates. The studies revealed that ElmGT, which normally transfers L-rhamnose to 8-demethyltetracenomycin C as a crucial biosynthetic step in elloramycin biosynthesis, is also able to process an activated non-deoxygenated sugar, NDP-D-glucose, as well as NDP-L-digitoxose, which is the first example of an NDP-L-sugar co-substrate of ElmGT possessing an axial 3-OH group. The structures of the resulting novel elloramycin analogues of these experiments, 8-demethyl-8-L-digitoxosyltetracenomycin C (4) and 8-demethyl-8-D-glucosyltetracenomycin C (7), were elucidated mainly by (1)H and (13)C NMR spectroscopy and by mass spectrometry.

摘要

我们对来自橄榄色链霉菌Tü 2353的糖基转移酶ElmGT进行了探索，该酶在其糖供体底物方面表现出有趣的灵活性，我们将探索范围扩展到了各种先前未研究过的糖共底物。研究表明，ElmGT通常将L-鼠李糖转移至8-去甲基四环素霉素C，这是埃罗霉素生物合成中的关键生物合成步骤，它还能够处理活化的非脱氧糖NDP-D-葡萄糖以及NDP-L-地高辛糖，这是ElmGT的NDP-L-糖共底物中具有轴向3-OH基团的首个实例。这些实验所得新型埃罗霉素类似物8-去甲基-8-L-地高辛糖基四环素霉素C（4）和8-去甲基-8-D-葡萄糖基四环素霉素C（7）的结构主要通过（1）H和（13）C核磁共振光谱以及质谱进行了阐明。

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洋地黄毒糖基四环素霉素C和葡萄糖基四环素霉素C，是通过探索糖基转移酶ElmGT的糖供体底物特异性获得的两种新型埃洛霉素类似物。

Digitoxosyltetracenomycin C and glucosyltetracenomycin C, two novel elloramycin analogues obtained by exploring the sugar donor substrate specificity of glycosyltransferase ElmGT.

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