摘要
Drosophila neural development undergoes extensive chromatin remodeling and precise epigenetic regulation.However,the roles of chromatin remodeling in establishment and maintenance of cell identity during cell fate transition remain enigmatic.Here,we compared the changes in gene expression,as well as the dynamics of nucleosome positioning and key histone modifications between the four major neural cell types during Drosophila neural development.We find that the neural progenitors can be separated from the terminally differentiated cells based on their gene expression profiles,whereas nucleosome distribution in the flanking regions of transcription start sites fails to identify the relationships between the progenitors and the differentiated cells.H3K27me3 signal in promoters and enhancers can not only distinguish the progenitors from the differentiated cells but also identify the differentiation path of the neural stem cells(NSCs)to the intermediate progenitor cells to the glial cells.In contrast,H3K9ac signal fails to identify the differentiation path,although it activates distinct sets of genes with neuron-specific and glia-related functions during the differentiation of the NSCs into neurons and glia,respectively.Together,our study provides novel insights into the crucial roles of chromatin remodeling in determining cell type during Drosophila neural development.
Drosophila neural development undergoes extensive chromatin remodeling and precise epigenetic regulation.However,the roles of chromatin remodeling in establishment and maintenance of cell identity during cell fate transition remain enigmatic.Here,we compared the changes in gene expression,as well as the dynamics of nucleosome positioning and key histone modifications between the four major neural cell types during Drosophila neural development.We find that the neural progenitors can be separated from the terminally differentiated cells based on their gene expression profiles,whereas nucleosome distribution in the flanking regions of transcription start sites fails to identify the relationships between the progenitors and the differentiated cells.H3K27 me3 signal in promoters and enhancers can not only distinguish the progenitors from the differentiated cells but also identify the differentiation path of the neural stem cells(NSCs) to the intermediate progenitor cells to the glial cells.In contrast,H3K9ac signal fails to identify the differentiation path,although it activates distinct sets of genes with neuron-specific and glia-related functions during the differentiation of the NSCs into neurons and glia,respectively.Together,our study provides novel insights into the crucial roles of chromatin remodeling in determining cell type during Drosophila neural development.
基金
supported by the National Key R&D Program of China(Grant No.2016YFA0100400)
the National Natural Science Foundation of China(Grant Nos.31771419,31721003,and 31800858)
China Postdoctoral Science Foundation(Grant No.2017M621526)
