Georgios Chondrogiannis, Anna Toldrà, Martin Hanze, Mahiar Max Hamedi
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引用次数: 0
摘要
基于家庭的病毒感染核酸扩增检验(NAAT)是改善公共卫生的重要一步,但样本制备仍是一个重要障碍,尤其是在保护目标 RNA 免受样本中 RNase 侵蚀方面。本文介绍了一种使唾液样本中的 RNase 失活的新方法。这种方法利用固定在硝酸纤维素膜上的蛋白酶 K(PK)来储存和输送酶,能够消化样本中的核酸酶。固定的 PK 还与扩增试剂分离,因此不会干扰 DNA 扩增,从而省去了热失活或稀释步骤。在稀释的唾液样本中,PK 硝化纤维素在 50 °C 的温度下处理可显著降低 RNase A 的 RNase 活性,甚至在 42 °C 的温度下也能显示出良好的效果。通过对添加了甲型流感病毒(IVA)基因组 RNA 的稀释唾液样本进行预处理,进一步证明了这种方法在保护 RNA 免受消化方面的潜力。如果没有进行 PK 预处理,RNA 会被 RNase 消化,从而导致假阴性结果。这些研究结果表明,固定 PK 可将病毒样本的样品制备整合到家用 NAAT 中。
Home‐based Nucleic Acid Amplification Tests (NAATs) for viral infections would be an important step to improve public health, but sample preparation remains an important obstacle, particularly for the protection of target RNA from RNases in samples. Here, a new method for RNase deactivation in saliva samples is presented. This method uses Proteinase K (PK) immobilized on nitrocellulose membrane to store and deliver the enzyme, capable of digesting nucleases present in the sample. The immobilized PK is also separated from the amplification reagents, so that it does not disrupt DNA amplification, thus omitting the need for heat‐deactivation or dilution steps. Treatment by PK nitrocellulose at 50 °C dramatically decreases the RNase activity of RNase A, in diluted saliva samples, and even shows promising results at 42 °C. The potential of this method to protect RNA from digestion is further demonstrated, by pretreating diluted saliva samples spiked with Influenza Virus A (IVA) genomic RNA, which allows its amplification and colorimetric detection by lateral flow strips. In the absence of PK pretreatment, the RNA is digested by RNase, which leads to false negative results. These findings show that immobilized PK enables the integration of sample preparation of viral samples toward home‐based NAATs.
期刊介绍:
Advanced Materials Interfaces publishes top-level research on interface technologies and effects. Considering any interface formed between solids, liquids, and gases, the journal ensures an interdisciplinary blend of physics, chemistry, materials science, and life sciences. Advanced Materials Interfaces was launched in 2014 and received an Impact Factor of 4.834 in 2018.
The scope of Advanced Materials Interfaces is dedicated to interfaces and surfaces that play an essential role in virtually all materials and devices. Physics, chemistry, materials science and life sciences blend to encourage new, cross-pollinating ideas, which will drive forward our understanding of the processes at the interface.
Advanced Materials Interfaces covers all topics in interface-related research:
Oil / water separation,
Applications of nanostructured materials,
2D materials and heterostructures,
Surfaces and interfaces in organic electronic devices,
Catalysis and membranes,
Self-assembly and nanopatterned surfaces,
Composite and coating materials,
Biointerfaces for technical and medical applications.
Advanced Materials Interfaces provides a forum for topics on surface and interface science with a wide choice of formats: Reviews, Full Papers, and Communications, as well as Progress Reports and Research News.
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