Developing messenger RNA biomarkers: A workflow to characterise and identify transcript target sequences unaffected by alternative splicing for reproducible gene transcript quantification by reverse transcriptase quantitative polymerase chain reaction

Clinical and translational discovery Pub Date : 2024-10-07 DOI:10.1002/ctd2.70009

Bhaja Krushna Padhi, Guillaume Pelletier

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Abstract

Most eukaryotic genes generate multiple messenger RNA (mRNA) transcript variants by alternative splicing. The incomplete annotation of gene transcripts in genomic databases can result in improper primer design, adversely affecting the reliability of gene expression measurements by reverse transcriptase quantitative polymerase chain reaction (RT-qPCR). Hence, we present a workflow combining bioinformatics analyses, to select two to three evolutionarily conserved constitutive exons in rats, mice and humans as target sequences for PCR primer design, with experimental RT-PCR amplification and amplicon sequencing to confirm the expression and identity of gene transcript targets. The application of this workflow to the characterization of neurodevelopmental biomarker genes identified an unannotated exon in the rat Map2 gene, illustrating the importance of target sequence validation for the development of translational mRNA biomarkers for toxicological and biomedical studies.

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开发信使 RNA 生物标记物：表征和识别不受替代剪接影响的转录本目标序列的工作流程，以便通过反转录酶定量聚合酶链反应对基因转录本进行可重复的定量分析

大多数真核生物基因通过替代剪接产生多种信使 RNA（mRNA）转录本变体。基因组数据库中基因转录本的注释不完整会导致引物设计不当，从而影响反转录酶定量聚合酶链反应（RT-qPCR）测量基因表达的可靠性。因此，我们提出了一种工作流程，将生物信息学分析与实验性 RT-PCR 扩增和扩增子测序相结合，选择大鼠、小鼠和人类中两到三个进化上保守的组成外显子作为 PCR 引物设计的目标序列，以确认基因转录物目标的表达和身份。将这一工作流程应用于神经发育生物标记基因的表征，发现了大鼠 Map2 基因中一个未注释的外显子，说明了靶序列验证对于开发用于毒理学和生物医学研究的翻译 mRNA 生物标记的重要性。

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来源期刊

Clinical and translational discovery

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1.00

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