Dynamic landscape of mitochondrial Cytidine-to-Uridine RNA editing in tobacco (Nicotiana tabacum) shows its tissue specificity

RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing among tissues. In this study, we explored the tissue specificity of mitochondrial RNA editing in tobacco ( Nicotiana tabacum ) based on publicl...

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Published in	Plant cell, tissue and organ culture Vol. 148; no. 2; pp. 363 - 376
Main Authors	Fang, Jing, Jiang, Xiaohan, Wang, Tengfei, Deng, Zhiyu, Zhang, Aidi, Zhang, Xiujun
Format	Journal Article
Language	English
Published	Dordrecht Springer Netherlands 01.02.2022 Springer Nature B.V
Subjects	Biomedical and Life Sciences Editing flowers Gene expression Genes Heterogeneity Landscape preservation landscapes leaves Life Sciences Mitochondria mitochondrial RNA Nicotiana tabacum Nucleotides organ culture Original Article Plant Genetics and Genomics Plant Pathology Plant Physiology Plant Sciences Ribonucleic acid RNA RNA editing RNA modification sequence analysis Tissues Tobacco Uridine Tissue specificity RNA editing Mitochondria PPR
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Abstract	RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing among tissues. In this study, we explored the tissue specificity of mitochondrial RNA editing in tobacco ( Nicotiana tabacum ) based on publicly available RNA-seq data from four tobacco tissues: root, stem, leaf, and flower. As a result, 473 RNA editing sites involved in 60 mitochondrial genes were identified. The results showed an uneven distribution of editing sites among tobacco tissues, a total of 106 sites and 11 genes were identified as tissue-specific editing in the four tissues, and a total of 11 sites located in six genes were detected differentially edited statistically ( p -value < 0.01). The expression of RNA edited genes and RNA editing factors was analyzed, and we observed that most tissue-specific edited genes were expressed at a low level. There were about ~ 20 RNA editing factors that were differentially expressed between different tissues, indicating that the heterogeneity of RNA editing in different tissues might result from the expression regulation of RNA editing factors. Our analyses provide insights into the understanding of landscape, regulation, and function of RNA editing events in higher plants. Key message Dynamic landscape of conserved editing sites revealed the tissue specificity of mitochondrial RNA editing in tobacco.
AbstractList	RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing among tissues. In this study, we explored the tissue specificity of mitochondrial RNA editing in tobacco ( Nicotiana tabacum ) based on publicly available RNA-seq data from four tobacco tissues: root, stem, leaf, and flower. As a result, 473 RNA editing sites involved in 60 mitochondrial genes were identified. The results showed an uneven distribution of editing sites among tobacco tissues, a total of 106 sites and 11 genes were identified as tissue-specific editing in the four tissues, and a total of 11 sites located in six genes were detected differentially edited statistically ( p -value < 0.01). The expression of RNA edited genes and RNA editing factors was analyzed, and we observed that most tissue-specific edited genes were expressed at a low level. There were about ~ 20 RNA editing factors that were differentially expressed between different tissues, indicating that the heterogeneity of RNA editing in different tissues might result from the expression regulation of RNA editing factors. Our analyses provide insights into the understanding of landscape, regulation, and function of RNA editing events in higher plants. Key message Dynamic landscape of conserved editing sites revealed the tissue specificity of mitochondrial RNA editing in tobacco. RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing among tissues. In this study, we explored the tissue specificity of mitochondrial RNA editing in tobacco (Nicotiana tabacum) based on publicly available RNA-seq data from four tobacco tissues: root, stem, leaf, and flower. As a result, 473 RNA editing sites involved in 60 mitochondrial genes were identified. The results showed an uneven distribution of editing sites among tobacco tissues, a total of 106 sites and 11 genes were identified as tissue-specific editing in the four tissues, and a total of 11 sites located in six genes were detected differentially edited statistically (p-value < 0.01). The expression of RNA edited genes and RNA editing factors was analyzed, and we observed that most tissue-specific edited genes were expressed at a low level. There were about ~ 20 RNA editing factors that were differentially expressed between different tissues, indicating that the heterogeneity of RNA editing in different tissues might result from the expression regulation of RNA editing factors. Our analyses provide insights into the understanding of landscape, regulation, and function of RNA editing events in higher plants. RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing among tissues. In this study, we explored the tissue specificity of mitochondrial RNA editing in tobacco (Nicotiana tabacum) based on publicly available RNA-seq data from four tobacco tissues: root, stem, leaf, and flower. As a result, 473 RNA editing sites involved in 60 mitochondrial genes were identified. The results showed an uneven distribution of editing sites among tobacco tissues, a total of 106 sites and 11 genes were identified as tissue-specific editing in the four tissues, and a total of 11 sites located in six genes were detected differentially edited statistically (p-value < 0.01). The expression of RNA edited genes and RNA editing factors was analyzed, and we observed that most tissue-specific edited genes were expressed at a low level. There were about ~ 20 RNA editing factors that were differentially expressed between different tissues, indicating that the heterogeneity of RNA editing in different tissues might result from the expression regulation of RNA editing factors. Our analyses provide insights into the understanding of landscape, regulation, and function of RNA editing events in higher plants.Key messageDynamic landscape of conserved editing sites revealed the tissue specificity of mitochondrial RNA editing in tobacco.
Author	Jiang, Xiaohan Zhang, Aidi Fang, Jing Zhang, Xiujun Deng, Zhiyu Wang, Tengfei
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Snippet	RNA editing is a prevalent nucleotide modification at the RNA level in higher plants. However, little is known about the dynamic distribution of RNA editing...
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SubjectTerms	Biomedical and Life Sciences Editing flowers Gene expression Genes Heterogeneity Landscape preservation landscapes leaves Life Sciences Mitochondria mitochondrial RNA Nicotiana tabacum Nucleotides organ culture Original Article Plant Genetics and Genomics Plant Pathology Plant Physiology Plant Sciences Ribonucleic acid RNA RNA editing RNA modification sequence analysis Tissues Tobacco Uridine
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Title	Dynamic landscape of mitochondrial Cytidine-to-Uridine RNA editing in tobacco (Nicotiana tabacum) shows its tissue specificity
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