Single-cell transcriptome analysis reveals widespread monoallelic gene expression in individual rice mesophyll cells

Monoallelic gene expression refers to the phenomenon that all transcripts of a gene in a cell are expressed from only one of the two alleles in a diploid organism. Although monoallelic gene expression has been occasionally reported with bulk transcriptome analysis in plants, how prevalent it is in i...

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Published inScience bulletin Vol. 62; no. 19; pp. 1304 - 1314
Main Authors Han, Yingying, Chu, Xiao, Yu, Haopeng, Ma, Ying-Ke, Wang, Xiu-Jie, Qian, Wenfeng, Jiao, Yuling
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 15.10.2017
Subjects
Independent allelic expression
Monoallelic gene expression
Rice mesophyll cells
Single-cell RNA-seq
个体
单细胞
叶肉细胞
基因表达模式
基因转录
水稻
等位基因
组分
Monoallelic gene expression
Independent allelic expression
Rice mesophyll cells
Single-cell RNA-seq
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Summary:Monoallelic gene expression refers to the phenomenon that all transcripts of a gene in a cell are expressed from only one of the two alleles in a diploid organism. Although monoallelic gene expression has been occasionally reported with bulk transcriptome analysis in plants, how prevalent it is in individual plant cells remains unknown. Here, we developed a single-cell RNA-seq protocol in rice and investigated allelic expression patterns in mesophyll cells of indica (93-11 ) and japonica (Nipponbare) inbred lines, as well as their F1 reciprocal hybrids. We observed pervasive monoallelic gene expression in individual mesophyll cells, which could be largely explained by stochastic and independent transcription of two alleles. By con- trast, two mechanisms that were proposed previously based on bulk transcriptome analyses, parent-of- origin effects and allelic repression, were not well supported by our data. Furthermore, monoallelically expressed genes exhibited a number of characteristics, such as lower expression levels, narrower H3K4me3/H3K9acJH3K27me3 peaks, and larger expression divergences between 93-11 and Nipponbare. Taken together, the development of a single-cell RNA-seq protocol in this study offers us an excellent opportunity to investigate the origins and prevalence of monoallelic gene expression in plant cells.
Bibliography:Monoallelic gene expressionSingle-cell RNA-seqRice mesophyll cellsIndependent allelic expression
Monoallelic gene expression refers to the phenomenon that all transcripts of a gene in a cell are expressed from only one of the two alleles in a diploid organism. Although monoallelic gene expression has been occasionally reported with bulk transcriptome analysis in plants, how prevalent it is in individual plant cells remains unknown. Here, we developed a single-cell RNA-seq protocol in rice and investigated allelic expression patterns in mesophyll cells of indica (93-11 ) and japonica (Nipponbare) inbred lines, as well as their F1 reciprocal hybrids. We observed pervasive monoallelic gene expression in individual mesophyll cells, which could be largely explained by stochastic and independent transcription of two alleles. By con- trast, two mechanisms that were proposed previously based on bulk transcriptome analyses, parent-of- origin effects and allelic repression, were not well supported by our data. Furthermore, monoallelically expressed genes exhibited a number of characteristics, such as lower expression levels, narrower H3K4me3/H3K9acJH3K27me3 peaks, and larger expression divergences between 93-11 and Nipponbare. Taken together, the development of a single-cell RNA-seq protocol in this study offers us an excellent opportunity to investigate the origins and prevalence of monoallelic gene expression in plant cells.
10-1298/N
ISSN:2095-9273
2095-9281
DOI:10.1016/j.scib.2017.09.011