New Microfluidic Technologies for Studying Histone Modifications and Long Non-Coding RNA Bindings

New Microfluidic Technologies for Studying Histone Modifications and Long Non-Coding RNA Bindings

Previous studies have shown that genes can be switched on or off by age, environmental factors, diseases, and lifestyles. The open or compact structures of chromatin is a crucial factor that affects gene expression. Epigenetics refers to hereditary mechanisms that change gene expression and regulati...

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Bibliographic Details
Main Author:	Hsieh, Yuan-Pang
Other Authors:	Chemical Engineering
Format:	Others
Published:	Virginia Tech 2021
Subjects:	Microfluidics Epigenomics Precision Medicine Chromatin Immunoprecipitation Histone Modification Long Non-coding RNA Interaction Next Generation Sequencing NGS
Online Access:	http://hdl.handle.net/10919/106726

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