Sensing viruses by mechanical tension of DNA in responsive hydrogels

Jaeoh Shin, Andrey G. Cherstvy, R. Metzler
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引用次数: 29

Abstract

The rapid worldwide spread of severe viral infections, often involving novel modifications of viruses, poses major challenges to our health care systems. This means that tools that can efficiently and specifically diagnose viruses are much needed. To be relevant for a broad application in local health care centers, such tools should be relatively cheap and easy to use. Here we discuss the biophysical potential for the macroscopic detection of viruses based on the induction of a mechanical stress in a bundle of pre-stretched DNA molecules upon binding of viruses to the DNA. We show that the affinity of the DNA to the charged virus surface induces a local melting of the double-helix into two single-stranded DNA. This process effects a mechanical stress along the DNA chains leading to an overall contraction of the DNA. Our results suggest that when such DNA bundles are incorporated in a supporting matrix such as a responsive hydrogel, the presence of viruses may indeed lead to a significant, macroscopic mechanical deformation of the matrix. We discuss the biophysical basis for this effect and characterize the physical properties of the associated DNA melting transition. In particular, we reveal several scaling relations between the relevant physical parameters of the system. We promote this DNA-based assay for efficient and specific virus screening.
通过反应性水凝胶中DNA的机械张力感应病毒
严重病毒感染在世界范围内的迅速传播,往往涉及病毒的新修饰,对我们的卫生保健系统提出了重大挑战。这意味着非常需要能够有效和专门诊断病毒的工具。为了在当地卫生保健中心广泛应用,这些工具应该相对便宜且易于使用。在这里,我们讨论了基于在病毒与DNA结合时在一束预拉伸DNA分子中诱导机械应力的宏观检测病毒的生物物理潜力。我们发现,DNA与带电病毒表面的亲和力诱导了双螺旋结构的局部熔化,形成了两条单链DNA。这个过程对DNA链产生机械应力,导致DNA整体收缩。我们的研究结果表明,当这样的DNA束被纳入一个支持基质,如反应性水凝胶时,病毒的存在确实可能导致基质发生重大的宏观机械变形。我们讨论了这种效应的生物物理基础,并描述了相关DNA熔化转变的物理性质。特别地,我们揭示了系统相关物理参数之间的几个标度关系。我们推广这种基于dna的检测方法,用于高效和特异性的病毒筛选。
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