Alissa J. Wieberneit, Nongnoot Wongkaew, Antje J. Baeumner
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引用次数: 0
Abstract
Nucleic acid (NA) testing at the point-of-care requires efficient NA extraction followed by post-NA amplification to achieve necessary detection sensitivity. Nanofibers (NFs) are demonstrated to be an ideal solid surface in an NA extraction process but necessitate harsh conditions that interfere with the subsequent NA amplification process. It is demonstrated that novel, pH tunable, zwitterionic NFs composed of uncharged nylon doped with the weakly basic, cationic polyallylamine hydrochloride and the weakly acidic anionic polycarboxylic acid to address the issue. Unlike the other cationic polymers investigated, e.g. polybrene and polyaniline, these polymers allow efficient NA extraction in Tris-ethylenediamine tetra-acetic acid buffer under mild conditions (pH 4.5 containing 0.1% Tween 20 for adsorption, and pH 10 with 50 mM NaCl for elution). Adsorption and elution yields over 95% and 70%, respectively, are achieved. It also discovered a correlation between material morphologies and the NA extraction suggests that the combination of polymer chemistries and nanofiber morphologies facilitates efficient NA extraction at low concentrations (ng range) within a short time period (<10 min). Considering the simple protocols and instrument-free operation the as-developed NFs are highly attractive for use in sample-to-answer NA testing in point-of-care settings.
护理点核酸(NA)检测需要高效的 NA 提取,然后进行 NA 扩增,以达到必要的检测灵敏度。纳米纤维(NFs)已被证明是 NA 提取过程中的理想固体表面,但其所需的苛刻条件会干扰随后的 NA 扩增过程。实验证明,由掺杂弱碱性阳离子聚烯丙基胺盐酸盐和弱酸性阴离子聚羧酸的不带电尼龙组成的新型、pH 值可调的齐聚物 NFs 可以解决这个问题。与所研究的其他阳离子聚合物(如聚芘和聚苯胺)不同,这些聚合物可以在三乙二胺四乙酸缓冲液中以温和的条件(pH 4.5,含 0.1% 吐温 20 进行吸附;pH 10,含 50 mM NaCl 进行洗脱)高效萃取 NA。吸附率和洗脱率分别超过 95% 和 70%。研究还发现了材料形态与 NA 提取之间的相关性,表明聚合物化学成分与纳米纤维形态的结合有助于在短时间内(10 分钟)高效提取低浓度(纳克范围)的 NA。考虑到简便的操作程序和无需仪器的操作,所开发的纳米纤维对于在护理点环境中进行样本到答案的 NA 检测具有极大的吸引力。
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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