Single molecule detection of tuberculosis nucleic acid using dark field Tethered Particle Motion

2010 IEEE International Symposium on Biomedical Imaging: From Nano to Macro Pub Date : 2010-04-14 DOI:10.1109/ISBI.2010.5490227

S. Brinkers, Heidelinde R. C. Dietrich, S. Stallinga, J. Mes, I. T. Young, B. Rieger

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引用次数: 3

Abstract

Current methods for tuberculosis nucleic acid detection require amplification and labeling before detection is possible. We propose here a method for direct detection using Tethered Particle Motion: gold nanoparticles are tethered to a glass substrate by single-stranded DNA molecules consisting of the complementary sequence to the target. Detection takes place by observing a change in the motion of the nanoparticles. The particles are imaged by a dark field microscope and captured on an EMCCD camera. Single particle tracking is carried out through maximum likelihood estimation of the Poisson noise limited Gaussian image profile using a parallelized algorithm on a GPU. The method is characterized by biophysical modeling and the ability to detect nucleic acids is shown. This single molecule method is suitable for multiplexing and could form the basis of an exquisitely sensitive method of detecting the presence of nucleic acids derived from human pathogens directly from patient material.

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利用暗场系留粒子运动进行结核核酸单分子检测

目前的结核病核酸检测方法需要扩增和标记才能进行检测。我们在这里提出了一种使用系留粒子运动直接检测的方法:金纳米颗粒被由与目标互补序列组成的单链DNA分子拴在玻璃衬底上。检测是通过观察纳米颗粒运动的变化来实现的。这些粒子由暗场显微镜成像，并由EMCCD相机捕捉。利用GPU上的并行化算法对泊松噪声受限的高斯图像轮廓进行极大似然估计，实现单粒子跟踪。该方法以生物物理建模为特点，具有检测核酸的能力。这种单分子方法适合于多路复用，并且可以形成一种灵敏的方法的基础，用于直接从患者材料中检测来自人类病原体的核酸的存在。

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2010 IEEE International Symposium on Biomedical Imaging: From Nano to Macro

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