反义测序使用峰高比方法提高了A到I编辑测量的准确性和精确性。

Antisense sequencing improves the accuracy and precision of A-to-I editing measurements using the peak height ratio method.

作者信息

Rinkevich Frank D, Schweitzer Peter A, Scott Jeffrey G

机构信息

Department of Entomology, Comstock Hall, Cornell University, Ithaca, NY 14853, USA.

出版信息

BMC Res Notes. 2012 Jan 24;5:63. doi: 10.1186/1756-0500-5-63.

DOI:10.1186/1756-0500-5-63

PMID:22269019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3296654/

Abstract

BACKGROUND

A-to-I RNA editing is found in all phyla of animals and contributes to transcript diversity that may have profound impacts on behavior and physiology. Many transcripts of genes involved in axonal conductance, synaptic transmission and modulation are the targets of A-to-I RNA editing. There are a number of methods to measure the extent of A-to-I RNA editing, but they are generally costly and time consuming. One way to determine the frequency of A-to-I RNA editing is the peak height ratio method, which compares the size of peaks on electropherograms that represent unedited and edited sites.

FINDINGS

Sequencing of 4 editing sites of the Dα6 nicotinic acetylcholine receptor subunit with an antisense primer (which uses T/C peaks to measure unedited and edited sites, respectively) showed very accurate and precise measurements of A-to-I RNA editing. The accuracy and precision were excellent for all editing sites, including those edited with high or low frequencies. The frequency of A-to-I RNA editing was comparable to the editing frequency as measured by clone counting from the same sample. Sequencing these same sites with the sense primer (which uses A/G peaks) yielded inaccurate and imprecise measurements.

CONCLUSIONS

We have validated and improved the accuracy and precision of the peak height ratio method to measure the frequency of A-to-I RNA editing, and shown that results are primer specific. Thus, the correct sequencing primer must be utilized for the most dependable data. When compared to other methods used to measure the frequency of A-to-I RNA editing, the major benefits of the peak height ratio are that this method is inexpensive, fast, non-labor intensive and easily adaptable to many laboratory and field settings.

摘要

背景

A到I RNA编辑存在于所有动物门类中，有助于产生转录本多样性，这可能对行为和生理产生深远影响。许多参与轴突传导、突触传递和调节的基因转录本是A到I RNA编辑的靶标。有多种方法可用于测量A到I RNA编辑的程度，但这些方法通常成本高昂且耗时。确定A到I RNA编辑频率的一种方法是峰高比法，该方法比较代表未编辑和编辑位点的电泳图上峰的大小。

研究结果

用反义引物（分别使用T/C峰来测量未编辑和编辑位点）对Dα6烟碱型乙酰胆碱受体亚基的4个编辑位点进行测序，结果显示对A到I RNA编辑的测量非常准确和精确。所有编辑位点的准确性和精密度都非常好，包括那些编辑频率高或低的位点。A到I RNA编辑的频率与通过对同一样本进行克隆计数测得的编辑频率相当。用正义引物（使用A/G峰）对这些相同位点进行测序，得到的测量结果不准确且不精确。

结论

我们已经验证并提高了峰高比法测量A到I RNA编辑频率的准确性和精密度，并表明结果具有引物特异性。因此，为获得最可靠的数据，必须使用正确的测序引物。与用于测量A到I RNA编辑频率的其他方法相比，峰高比的主要优点是该方法成本低、速度快、无需大量人力，并且易于适用于许多实验室和野外环境。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b672/3296654/f170971872ac/1756-0500-5-63-1.jpg

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反义测序使用峰高比方法提高了A到I编辑测量的准确性和精确性。

Antisense sequencing improves the accuracy and precision of A-to-I editing measurements using the peak height ratio method.

作者信息

机构信息

出版信息

BACKGROUND

FINDINGS

CONCLUSIONS

背景

研究结果

结论

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