拉曼光谱兼容 PDMS 液滴微流控培养和分析平台，用于芯片脂质组学研究。

Raman spectroscopy compatible PDMS droplet microfluidic culture and analysis platform towards on-chip lipidomics.

机构信息

Department of Electrical and Computer Engineering, Texas A&M University, College Station, Texas, USA.

出版信息

Analyst. 2017 Apr 7;142(7):1054-1060. doi: 10.1039/c6an02221a. Epub 2017 Mar 15.

Abstract

Lipids produced by microalgae are viewed as a potential renewable alternative to fossil fuels, however, significant improvements in productivity are required for microalgal biofuels to become economically feasible. Here we present a method that allows for the use of Raman spectroscopy with poly(dimethylsiloxane) (PDMS) droplet microfluidic devices, which not only overcomes the high Raman background of PDMS, but also achieves pairing of the high-throughput single-cell resolution advantages of droplet microfluidics with the direct, chemically specific, label-free, and non-destructive nature of Raman spectroscopy. The platform was successfully utilized for in situ characterization of microalgal lipid production over time within droplets, paving the way towards high-throughput microalgal lipidomics assays.

摘要

微藻产生的脂质被视为化石燃料的一种有潜力的可再生替代物，然而，为了使微藻生物燃料在经济上可行，需要显著提高其生产力。在这里，我们提出了一种方法，该方法允许使用拉曼光谱与聚二甲基硅氧烷（PDMS）液滴微流控装置结合使用，该方法不仅克服了 PDMS 的高拉曼背景，而且还实现了高通量单细胞分辨率优势与拉曼光谱的直接、化学特异性、无标记和非破坏性本质的配对。该平台成功地用于在液滴内随时间原位表征微藻脂质的产生，为高通量微藻脂质组学检测铺平了道路。

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拉曼光谱兼容 PDMS 液滴微流控培养和分析平台，用于芯片脂质组学研究。

Raman spectroscopy compatible PDMS droplet microfluidic culture and analysis platform towards on-chip lipidomics.

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