Enhancement of target-DNA hybridization efficiency by pre-hybridization on sequence-orientated micro-arrayed probes

Journal of The Chinese Institute of Chemical Engineers Pub Date : 2008-05-01 DOI:10.1016/j.jcice.2007.12.012

Dan-Kai Yang , Jie-Len Huang , Chia-Chun Chen , Hung-Ju Su , Jui-Chuang Wu

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引用次数: 11

Abstract

The enhancement of hybridization efficiency of deoxyribonucleic acid (DNA) targets using oligonucleotide pre-hybridization is studied on two sequence-inversed micro-arrayed probes. The sequences for pre-hybridizing both oligo and target DNA are designed to be fully complementary with their shared DNA probe in a coaxial stacking configuration; i.e. they hybridize immediately alongside each other along the continuous complement probe strand. The pre-hybridizing oligo and target DNA are differentiated by being labeled with two distinct fluorescent dyes, and the cooperative effect on hybridization efficiency is investigated through the comparison of the stacking and individual hybridization configurations based on the detection signals of the labeling dyes. The results show that the pre-hybridization of a DNA oligo enhances the subsequent hybridization efficiency of the target-DNA coupling onto the same probe. The efficiency is enhanced if the hybridization position occurs at a site close to the substrate surface.

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序列定向微阵列探针预杂交提高靶dna杂交效率

在两种序列反向微阵列探针上研究了利用寡核苷酸预杂交技术提高脱氧核糖核酸(DNA)靶点杂交效率的方法。用于预杂交寡核苷酸和靶DNA的序列被设计成与其共享的DNA探针在同轴堆叠配置中完全互补;也就是说，它们沿着连续的补体探针链立即并排杂交。用两种不同的荧光染料对预杂交寡核苷酸和靶DNA进行标记，并根据标记染料的检测信号，通过对堆叠和单独杂交构型的比较，研究了合作对杂交效率的影响。结果表明，DNA寡核苷酸的预杂交提高了目标-DNA耦合在同一探针上的后续杂交效率。如果杂化位置发生在靠近底物表面的位置，则提高了效率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of The Chinese Institute of Chemical Engineers

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