在小柱分离法中丢失了大量的核糖核酸

Bhatia Sudhir
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引用次数: 0

摘要

目的:在世界各地的许多实验室中,核酸的分离是进行不同分子分析的重要步骤。通常的做法是用户用迷你柱从样品中分离核糖核酸(RNA)一次,并将上清扔掉。这使得分离的RNA在许多研究中成为限制因素,因为这个问题在文献中没有得到解决。因此,我们决定在迷你柱分离法中进行是否为核糖核酸的丢失。方法:采用胎盘和脐带不同的人体组织样品进行微柱分离,然后分离上清。用光谱仪和实时PCR仪对RNA的产率和成功分离进行评估。结果:在随后的分离过程中发现大量的RNA丢失。紫外分光光度计测定的数量表明,有时第2和第3分离株比第1分离株含有更多的RNA。实时聚合酶链反应(real - time PCR)显示,从上清液中可以看到多达6个分离周期的RNA的存在。结论:小柱法在后续分离中存在RNA损失,因此可以从后续的上清分离中分离出更多的RNA。用户应进行多次分离以获得更高的RNA产率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
LOSS OF AN ABUNDANT QUANTITY OF RIBONUCLEIC ACID DURING MINI COLUMN ISOLATION METHOD
Aim: The Isolation of nucleic acid is an important step for conducting different molecular assays in many laboratories around the world. It is also a common practice that user is isolating the ribonucleic acid (RNA) from the samples with mini column once and throwing away the supernatant. This makes isolated RNA as limiting factor in many studies as this issue has not been addressed in literature. Therefore, we decided to conduct whether it is a loss of ribonucleic acid during the mini column isolation method. Method: In this research, the mini column isolations were done with different samples of human tissues from placenta and umbilical cords and subsequent isolations of supernatants. Yields and successful isolations of RNA were assessed with spectrometric instrument and real time PCR machine. Results: It was found that there is loss of abundant quantity of RNA during the subsequent isolations. The amount measured with UV spectrometer indicates that some times 2nd and 3rd isolation have more RNA than the first isolation. Realtime PCR for house keeping gene beta actin shows that presence of RNA can be seen up to 6 isolation cycles from supernatants. Conclusion: There is loss of RNA in subsequent isolations with mini column method, therefore it is possible to isolate more RNA from subsequent supernatant isolations. User should do the multiple isolations to get higher yield of RNA.
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