用于微生物单细胞分离和全基因组扩增的光流平台的实验验证

2017 IEEE International Symposium on Medical Measurements and Applications (MeMeA) Pub Date : 2017-07-19 DOI:10.1109/MeMeA.2017.7985850

Yuguang Liu, P. Jeraldo, S. McDonough, J. Jen, Robin Patel, Marina Walther-Antonio, Christopher J. Lambert, B. Gale

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引用次数: 0

摘要

单个微生物细胞基因组测序正在成为发现隐藏的遗传信息的有力工具，对许多医学应用有价值。单细胞基因组测序的关键步骤之一是从高度多样化的异质群体中分离出单个细胞。扩增单个微生物细胞的基因组是另一个挑战，因为DNA的数量非常少。目前，我们正致力于开发一种集成先进显微镜、光学镊子和微流控技术的光流控平台，用于单细胞分离和基因组扩增。在这里，我们研究和评估了该平台对单个微生物细胞基因组扩增的有效性。该方法的成功验证使我们能够使用该平台进行各种单细胞研究。

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Experimental validation of an optofluidic platform for microbial single cell isolation and whole genome amplification for human microbiome applications

Single microbial cell genome sequencing is becoming a powerful tool for the discovery of the hidden genetic information valuable for many medical applications. One of the critical steps in single-cell genome sequencing is the physical isolation of individual cells from a highly diverse heterogeneous population. Amplifying the genome of a single microbial cell is another challenge due to the minute amount of DNA. Efforts have been directed in developing an optofluidic platform integrating advanced microscopy, optical tweezers and microfluidic technology for single cell isolation and genome amplification. Here, we investigate and evaluate the validity of this platform for single microbial cell genome amplification. The successful validation of this approach allows us to perform various single cell studies using this platform.

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2017 IEEE International Symposium on Medical Measurements and Applications (MeMeA)

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