基于qPCR的mRNA质量评分显示热稳定后完整的mRNA

Q1 Biochemistry, Genetics and Molecular Biology
Oskar Karlsson , Lova Segerström , Robert Sjöback , Ingrid Nylander , Mats Borén
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引用次数: 7

摘要

分析来自生物样品的多种分析物可能具有挑战性,因为不同的分析物需要不同的保存措施。热诱导的酶失活是一种在生物样品中保存蛋白质及其修饰的有效方法,但通过RIN值测量的RNA质量一直是这类样品中关注的问题。在这里,我们研究了热稳定与标准快速冷冻对RNA质量的影响,采用两种RNA提取方案,QiaZol加尿素预溶和不加尿素预溶,以及两种RNA质量测量方法:由Agilent生物分析仪定义的RIN值,以及一种基于qPCR的替代方法。从热稳定的脑样本中提取DNA也进行了研究。速冻样品的RIN值比直接提取QiaZol的热稳定样品高约1个单位,但与尿素预溶稳定样品相等。基于qPCR的RNA质量测量显示,速冻和热灭活样品的质量没有差异。这种差异的可能解释是,RIN值是基于rRNA的间接测量,而qPCR评分是基于mRNA质量的实际测量。与快速冷冻组织相比,热稳定脑组织样品的DNA产量显着增加,但对纯度或质量没有任何影响。因此,组织的热稳定为两步保存方案开辟了可能性,其中蛋白质及其修饰可以在第一个基于热的步骤中保存,而在第二步,使用标准的RNA保存策略,mRNA被保存。这种收集策略将使最终分析不确定的样品的生物银行没有损失样品质量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

qPCR based mRNA quality score show intact mRNA after heat stabilization

qPCR based mRNA quality score show intact mRNA after heat stabilization

qPCR based mRNA quality score show intact mRNA after heat stabilization

qPCR based mRNA quality score show intact mRNA after heat stabilization

Analysis of multiple analytes from biological samples can be challenging as different analytes require different preservation measures. Heat induced enzymatic inactivation is an efficient way to preserve proteins and their modifications in biological samples but RNA quality, as measured by RIN value, has been a concern in such samples. Here, we investigate the effect of heat stabilization compared with standard snap freezing on RNA quality using two RNA extraction protocols, QiaZol with and without urea pre-solubilization, and two RNA quality measurements: RIN value, as defined by the Agilent Bioanalyzer, and an alternative qPCR based method. DNA extraction from heat stabilized brain samples was also examined. The snap frozen samples had RIN values about 1 unit higher than heat stabilized samples for the direct QiaZol extraction but equal with stabilized samples using urea pre-solubilization. qPCR based RNA quality measurement showed no difference in quality between snap frozen and heat inactivated samples. The probable explanation for this discrepancy is that the RIN value is an indirect measure based on rRNA, while the qPCR score is based on actual measurement of mRNA quality. The DNA yield from heat stabilized brain tissue samples was significantly increased, compared to the snap frozen tissue, without any effects on purity or quality. Hence, heat stabilization of tissues opens up the possibility for a two step preservation protocol, where proteins and their modifications can be preserved in the first heat based step, while in a second step, using standard RNA preservation strategies, mRNA be preserved. This collection strategy will enable biobanking of samples where the ultimate analysis is not determined without loss of sample quality.

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来源期刊
Biomolecular Detection and Quantification
Biomolecular Detection and Quantification Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
14.20
自引率
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审稿时长
8 weeks
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