通过体外转录高效制备有机底物-RNA缀合物。

Efficient preparation of organic substrate-RNA conjugates via in vitro transcription.

作者信息

Fiammengo Roberto, Musílek Kamil, Jäschke Andres

机构信息

Institute of Pharmacy and Molecular Biotechnology, University of Heidelberg, Im Neuenheimer Feld 364, 69120 Heidelberg, Germany.

出版信息

J Am Chem Soc. 2005 Jun 29;127(25):9271-6. doi: 10.1021/ja051179m.

DOI:10.1021/ja051179m

PMID:15969609

Abstract

A concise synthetic way has been developed for the preparation of guanosine monophosphate derivatives carrying a decaethylene glycol spacer at their 5'-oxygen to which are attached a range of organic substrates. The four different compounds, prepared via a convergent synthetic strategy, carry a tethered benzylallyl ether residue (1a), an anthracene (1b), a benzyl carbamate residue (1c), or a primary amino group (1d), respectively. All four compounds have been successfully incorporated at the 5'-end of a 25-mer long RNA transcript via T7 RNA polymerase, and no inhibition of chain elongation could be observed. Under proper conditions, 1a and 1b can be incorporated up to 90-95% and 1c up to 68%. The amino-terminated initiator 1d is incorporated less efficiently although still up to 49%. These results show that the more hydrophobic the guanosine monophosphate derivative is, the higher is its enzymatic incorporation.

摘要

已开发出一种简洁的合成方法，用于制备在其5'-氧原子上带有十甘醇间隔基的鸟苷单磷酸衍生物，一系列有机底物连接到该间隔基上。通过收敛合成策略制备的四种不同化合物分别带有连接的苄基烯丙基醚残基（1a）、蒽（1b）、苄基氨基甲酸酯残基（1c）或伯氨基（1d）。所有四种化合物都已通过T7 RNA聚合酶成功掺入到一个25聚体长的RNA转录本的5'-末端，并且未观察到链延伸受到抑制。在适当条件下，1a和1b的掺入率可达90 - 95%，1c可达68%。氨基末端引发剂1d的掺入效率较低，尽管仍可达49%。这些结果表明，鸟苷单磷酸衍生物的疏水性越强，其酶促掺入率越高。

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通过体外转录高效制备有机底物-RNA缀合物。

Efficient preparation of organic substrate-RNA conjugates via in vitro transcription.

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