Add to ORKGOver 17 and 160 types of chemical modifications have been identified in DNA and RNA, respectively. The interest in understanding the various biological functions of DNA and RNA modifications has lead to the cutting-edged fields of epigenomics and epitranscriptomics. Developing chemical and biological tools to detect specific modifications in the genome or transcriptome has greatly facilitated their study. Here, we review the recent technological advances in this rapidly evolving field. We focus on high-throughput detection methods and biological findings for these modifications, and discuss questions to be addressed as well. We also summarize third-generation sequencing methods, which enable long-read and single-molecule sequencing of DNA a...
The increasingly complex functionality of RNA is contrasted by its simple chemical composition. RNA ...
The first chemical modification to RNA was discovered nearly 60 years ago; to date, more than 100 ch...
With advanced technologies to map RNA modifications, our understanding of them has been revolutioniz...
The “epigenetics” concept was first described in 1942. Thus far, chemical modifications on histones,...
Abstract RNA contains over 150 types of chemical modifications. Although many of these chemical modi...
Every single RNA nucleotide may undergo a variety of (post-)transcriptional chemical modifications. ...
Post-transcriptional RNA modification occurs on all types of RNA and plays a vital role in regulatin...
Modified nucleotides in mRNA are an essential addition to the standard genetic code of four nucleoti...
In recent years, major breakthroughs in RNA-modification-mediated regulation of gene expression have...
Innovations in epitranscriptomics have resulted in the identification of more than 160 RNA modificat...
International audienceOrganisms from all domains of life invest a substantial amount of energy for t...
New analytics of post-transcriptional RNA modifications have paved the way for a tremendous upswing ...
Chemical modifications of nucleic acids can have profound impact to various biological processes.Wel...
More than 100 different types of post-transcriptional modifications to RNA molecules have been chara...
The genetic alphabet consists of the four letters: C, A, G, and T in DNA and C,A,G, and U in RNA. Tr...
The increasingly complex functionality of RNA is contrasted by its simple chemical composition. RNA ...
The first chemical modification to RNA was discovered nearly 60 years ago; to date, more than 100 ch...
With advanced technologies to map RNA modifications, our understanding of them has been revolutioniz...
The “epigenetics” concept was first described in 1942. Thus far, chemical modifications on histones,...
Abstract RNA contains over 150 types of chemical modifications. Although many of these chemical modi...
Every single RNA nucleotide may undergo a variety of (post-)transcriptional chemical modifications. ...
Post-transcriptional RNA modification occurs on all types of RNA and plays a vital role in regulatin...
Modified nucleotides in mRNA are an essential addition to the standard genetic code of four nucleoti...
In recent years, major breakthroughs in RNA-modification-mediated regulation of gene expression have...
Innovations in epitranscriptomics have resulted in the identification of more than 160 RNA modificat...
International audienceOrganisms from all domains of life invest a substantial amount of energy for t...
New analytics of post-transcriptional RNA modifications have paved the way for a tremendous upswing ...
Chemical modifications of nucleic acids can have profound impact to various biological processes.Wel...
More than 100 different types of post-transcriptional modifications to RNA molecules have been chara...
The genetic alphabet consists of the four letters: C, A, G, and T in DNA and C,A,G, and U in RNA. Tr...
The increasingly complex functionality of RNA is contrasted by its simple chemical composition. RNA ...
The first chemical modification to RNA was discovered nearly 60 years ago; to date, more than 100 ch...
With advanced technologies to map RNA modifications, our understanding of them has been revolutioniz...