使用单链环状DNA（sscDNA）靶标提高DNA微阵列杂交特异性。

Increased DNA microarray hybridization specificity using sscDNA targets.

作者信息

Barker Christopher S, Griffin Chandi, Dolganov Gregory M, Hanspers Kristina, Yang Jean Yee Hwa, Erle David J

机构信息

Gladstone Institute of Cardiovascular Disease, The J. David Gladstone Institutes, San Francisco, California 94158, USA.

出版信息

BMC Genomics. 2005 Apr 22;6:57. doi: 10.1186/1471-2164-6-57.

DOI:10.1186/1471-2164-6-57

PMID:15847692

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1090574/

Abstract

BACKGROUND

The most widely used amplification method for microarray analysis of gene expression uses T7 RNA polymerase-driven in vitro transcription (IVT) to produce complementary RNA (cRNA) that can be hybridized to arrays. However, multiple rounds of amplification are required when assaying very small amounts of starting RNA. Moreover, certain cRNA-DNA mismatches are more stable than the analogous cDNA-DNA mismatches and this might increase non-specific hybridization. We sought to determine whether a recently developed linear isothermal amplification method (ribo-SPIA) that produces single stranded cDNA would offer advantages over traditional IVT-based methods for microarray-based analyses of transcript expression.

RESULTS

A single round of ribo-SPIA amplification produced sufficient sscDNA for hybridizations when as little as 5 ng of starting total RNA was used. Comparisons of probe set signal intensities obtained from replicate amplifications showed consistently high correlations (r = 0.99). We compared gene expression in two different human RNA samples using ribo-SPIA. Compared with one round IVT, ribo-SPIA had a larger dynamic range and correlated better with quantitative PCR results even though we used 1000-fold less starting RNA. The improved dynamic range was associated with decreases in hybridization to mismatch control probes.

CONCLUSION

The use of amplified sscDNA may offer substantial advantages over IVT-based amplification methods, especially when very limited amounts of starting RNA are available. The use of sscDNA targets instead of cRNA targets appears to improve hybridization specificity.

摘要

背景

用于基因表达微阵列分析的最广泛使用的扩增方法是利用T7 RNA聚合酶驱动的体外转录（IVT）来产生可与阵列杂交的互补RNA（cRNA）。然而，在检测极少量起始RNA时需要进行多轮扩增。此外，某些cRNA-DNA错配比类似的cDNA-DNA错配更稳定，这可能会增加非特异性杂交。我们试图确定一种最近开发的产生单链cDNA的线性等温扩增方法（ribo-SPIA）是否比基于传统IVT的方法在基于微阵列的转录本表达分析中具有优势。

结果

当使用低至5 ng的起始总RNA时，一轮ribo-SPIA扩增产生了足够用于杂交的单链cDNA。从重复扩增获得的探针集信号强度比较显示出始终如一的高相关性（r = 0.99）。我们使用ribo-SPIA比较了两种不同人类RNA样本中的基因表达。与一轮IVT相比，ribo-SPIA具有更大的动态范围，并且即使我们使用的起始RNA量减少了1000倍，其与定量PCR结果的相关性也更好。动态范围的改善与错配对照探针杂交的减少有关。

结论

与基于IVT的扩增方法相比，使用扩增的单链cDNA可能具有显著优势，特别是在起始RNA量非常有限的情况下。使用单链cDNA靶标而非cRNA靶标似乎可以提高杂交特异性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/eb7c/1090574/433020f372c4/1471-2164-6-57-1.jpg

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使用单链环状DNA（sscDNA）靶标提高DNA微阵列杂交特异性。

Increased DNA microarray hybridization specificity using sscDNA targets.

作者信息

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSION

背景

结果

结论

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