7-叠氮甲氧基香豆素作为用于模板核酸检测的前体荧光团。
7-Azidomethoxy-coumarins as profluorophores for templated nucleic acid detection.
作者信息
Franzini Raphael M, Kool Eric T
机构信息
Department of Chemistry, Stanford University, Stanford, CA 94305-5080, USA.
出版信息
Chembiochem. 2008 Dec 15;9(18):2981-8. doi: 10.1002/cbic.200800507.
Abstract
Templated nucleic acid detection is an emerging bioanalytical method that makes use of the target DNA or RNA strand to initiate a fluorogenic reaction. The Staudinger reduction holds particular promise for templated sensing of nucleic acids because the involved functional groups are highly chemoselective. Here, the azidomethoxy group, which can be removed under Staudinger conditions, is used to cage 7-hydroxycoumarin fluorophores. Reduction by phosphines and subsequent loss of the azidomethoxy substituent induce a significant bathochromic shift of the major absorbance band in the near UV region. When excited at the appropriate wavelength, this change in the absorbance spectrum translates into a substantial fluorescence turn-on signal. The described profluorophores are readily conjugated to amino-modified DNAs and are rapidly uncaged by a triphenylphosphine-DNA probe under the control of a DNA template. In addition, turnover of the probes on the target strand occurs and yields substantial signal amplification.
摘要
模板核酸检测是一种新兴的生物分析方法,它利用目标DNA或RNA链引发荧光反应。施陶丁格还原反应在核酸模板传感方面具有特殊的前景,因为所涉及的官能团具有高度的化学选择性。在这里,可在施陶丁格条件下除去的叠氮甲氧基用于包裹7-羟基香豆素荧光团。膦的还原作用以及随后叠氮甲氧基取代基的离去会导致近紫外区域主要吸收带发生显著的红移。当在适当波长激发时,吸收光谱的这种变化会转化为显著的荧光开启信号。所描述的前体荧光团很容易与氨基修饰的DNA结合,并在DNA模板的控制下被三苯基膦-DNA探针快速去笼。此外,探针在目标链上发生周转并产生大量的信号放大。
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