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Transcriptional profiling reveals the transcription factor networks regulating the survival of striatal neurons

Lin Yang, Zihao Su, Zi‐Wu Wang, Zhenmeiyu Li, Zicong Shang, Heng Du, Guoping Liu, Dashi Qi, Zhengang Yang, Zhejun Xu, Zhuangzhi Zhang

2021Cell Death and Disease34 citationsDOIOpen Access PDF

Abstract

The striatum is structurally highly diverse, and its organ functionality critically depends on normal embryonic development. Although several studies have been conducted on the gene functional changes that occur during striatal development, a system-wide analysis of the underlying molecular changes is lacking. Here, we present a comprehensive transcriptome profile that allows us to explore the trajectory of striatal development and identify the correlation between the striatal development and Huntington's disease (HD). Furthermore, we applied an integrative transcriptomic profiling approach based on machine learning to systematically map a global landscape of 277 transcription factor (TF) networks. Most of these TF networks are linked to biological processes, and some unannotated genes provide information about the corresponding mechanisms. For example, we found that the Meis2 and Six3 were crucial for the survival of striatal neurons, which were verified using conditional knockout (CKO) mice. Finally, we used RNA-Seq to speculate their downstream targets.

Topics & Concepts

TranscriptomeBiologyTranscription factorComputational biologyGeneGene expression profilingStriatumRNA-SeqConditional gene knockoutGene regulatory networkProfiling (computer programming)Gene expressionNeuroscienceGeneticsPhenotypeComputer scienceDopamineOperating systemGenetic Neurodegenerative DiseasesRNA Research and SplicingMitochondrial Function and Pathology
Transcriptional profiling reveals the transcription factor networks regulating the survival of striatal neurons | Litcius