Facilitation of axonal transcriptome analysis with quantitative microfluidic devices

Microfluidic chambers are powerful tools for studying axonal mRNA localization and translation in neurons. In addition to specific manipulation and measurements of axons, microfluidic chambers are used for collecting axonal materials to perform axonal transcriptome analysis. However, traditional bip...

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Bibliographic Details
Published in:Lab on a chip 2023-05, Vol.23 (9), p.2217-2227
Main Authors: Yang, Zhuoxuan, Yu, Jun, Zhang, Jian, Song, Huixue, Ye, Haixia, Liu, Jianhui, Wang, Nijia, Che, Pengfei, Long, Gaoxin, Wang, Yunxuan, Park, Jaewon, Ji, Sheng-Jian
Format: Article
Language:English
Subjects:
Axons
Chambers
Design improvements
Gene Expression Profiling
Lab-On-A-Chip Devices
Microfluidic devices
Microfluidics
Neurons
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Summary:Microfluidic chambers are powerful tools for studying axonal mRNA localization and translation in neurons. In addition to specific manipulation and measurements of axons, microfluidic chambers are used for collecting axonal materials to perform axonal transcriptome analysis. However, traditional bipartite and tripartite chambers have limitations either in purity or quantity of collected axons. Here, we improved the design of traditional chambers. Moreover, we developed two new quantitative chambers, multi-compartmental quantitative bipartite chamber (MQBC) and long quantitative tripartite chamber (LQTC). Compared with the traditional chambers, MQBC and LQTC could dramatically increase the efficiency in collecting axonal RNA. Finally, we applied these chambers to do comparative axon transcriptome analysis of different types of neurons. Thus, our newly designed quantitative chambers significantly improve axon collection efficiency and facilitate axonal transcriptome analysis. Two newly developed quantitative chambers, multi-compartmental quantitative bipartite chamber (MQBC) and long quantitative tripartite chamber (LQTC), could dramatically increase the efficiency in collecting axonal RNA.
ISSN:1473-0197
1473-0189
DOI:10.1039/d2lc01183b