Nabeel S. Ganem scite author profile

Adenosine-to-inosine RNA editing is a conserved process, which is performed by ADAR enzymes. By changing nucleotides in coding regions of genes and altering codons, ADARs expand the cell's protein repertoire. This function of the ADAR enzymes is essential for human brain development. However, most of the known editing sites are in non-coding repetitive regions in the transcriptome and the purpose of editing in these regions is unclear. Recent studies, which have shown that editing levels of transcripts vary between tissues and developmental stages in many organisms, suggest that the targeted RNA and ADAR editing are both regulated. We discuss the implications of these findings, and the possible role of RNA editing in innate immunity.

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In cancer, A-to-I RNA editing can be the driver, the passenger, or the mechanic

Ganem

Ben-Asher

Lamm

2017

Drug Resistance Updates

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A-to-I RNA Editing Affects lncRNAs Expression after Heat Shock

Haas

Ganem

Keshet

et al. 2018

Genes

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Adenosine to inosine (A-to-I) RNA editing is a highly conserved regulatory process carried out by adenosine-deaminases (ADARs) on double-stranded RNA (dsRNAs). Although a considerable fraction of the transcriptome is edited, the function of most editing sites is unknown. Previous studies indicate changes in A-to-I RNA editing frequencies following exposure to several stress types. However, the overall effect of stress on the expression of ADAR targets is not fully understood. Here, we performed high-throughput RNA sequencing of wild-type and ADAR mutant Caenorhabditis elegans worms after heat-shock to analyze the effect of heat-shock stress on the expression pattern of genes. We found that ADAR regulation following heat-shock does not directly involve heat-shock related genes. Our analysis also revealed that long non-coding RNAs (lncRNAs) and pseudogenes, which have a tendency for secondary RNA structures, are enriched among upregulated genes following heat-shock in ADAR mutant worms. The same group of genes is downregulated in ADAR mutant worms under permissive conditions, which is likely, considering that A-to-I editing protects endogenous dsRNA from RNA-interference (RNAi). Therefore, temperature increases may destabilize dsRNA structures and protect them from RNAi degradation, despite the lack of ADAR function. These findings shed new light on the dynamics of gene expression under heat-shock in relation to ADAR function.

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A-to-I RNA Editing Affects lncRNAs Expression after Heat Shock

Haas

Ganem

Keshet

et al. 2018

Preprint

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Adenosine to inosine (A-to-I) RNA editing is a highly conserved regulatory process carried out by adenosine-deaminases (ADARs) on dsRNAs. Although a considerable fraction of the transcriptome is edited, the function of most editing sites is unknown. Previous studies indicate changes in A-to-I RNA editing frequencies following exposure to several stress types. However, the overall effect of stress on the expression of ADAR targets is not fully understood. Here, we performed high-throughput RNA sequencing of wild-type and ADAR mutant C. elegans worms after heat-shock to analyze the effect of heat-shock stress on the expression pattern of genes. We found that ADAR regulation following heat-shock does not directly involve heat-shock related genes. Our analysis also revealed that lncRNAs and pseudogenes, which have a tendency for secondary RNA structures, are enriched among upregulated genes following heat-shock in ADAR mutant worms. The same group of genes is downregulated in ADAR mutant worms under permissive conditions, which is likely, considering that A-to-I editing protects endogenous dsRNA from RNA-interference (RNAi). Therefore, temperature increases may destabilize dsRNA structures and protect them from RNAi degradation, despite the lack of ADAR function. These findings shed new light on the dynamics of gene expression under heat-shock in relation to ADAR function.

show abstract

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Nabeel S. Ganem

Disruption in A-to-I Editing Levels Affects C. elegans Development More Than a Complete Lack of Editing

A-to-I RNA editing – thinking beyond the single nucleotide

In cancer, A-to-I RNA editing can be the driver, the passenger, or the mechanic

A-to-I RNA Editing Affects lncRNAs Expression after Heat Shock

A-to-I RNA Editing Affects lncRNAs Expression after Heat Shock

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