Results 211 to 220 of about 5,392 (239)
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Epitranscriptomics: mixed messages
Nature Methods, 2017Pioneering mapmakers have uncovered a surprising variety of abundant RNA modifications that have an apparently critical—but still poorly understood—role in gene regulation.
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bioRxiv
Modifications of RNA, known as the epitranscriptome, affect gene expression, translation, and splicing in eukaryotes, with implications for developmental processes, cancer, and viral infections.
Sebastian Riquelme Barrios +8 more
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Modifications of RNA, known as the epitranscriptome, affect gene expression, translation, and splicing in eukaryotes, with implications for developmental processes, cancer, and viral infections.
Sebastian Riquelme Barrios +8 more
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Directed evolution of an m6A eraser for site-selective epitranscriptome editing
Research SquareN6-methyladenosine (m6A) is a critical RNA modification, but tools to manipulate it in cells remain limited. Current m6A demethylases (FTO and ALKBH5) exhibit low catalytic efficiency, hindering their applications in epitranscriptomic research and ...
Huiqing Zhou, Chuan-Hui Wang
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Ψ-Atlas: an integrated atlas for pseudouridine epitranscriptome
bioRxivPseudouridine (Ψ) is a C5 glycoside isomer of uridine, formed by breaking the N1 glycosyl bond and undergoing a 180° base rotation. This modification stands as one of the most widespread post-transcriptional alterations in RNA and is universally ...
Xiaochen Wang +13 more
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Cancer Research
Due to its highly heterogenous molecular landscape, bladder cancer (BlCa) is still characterized by non-personalized prognosis and treatment decisions.
Andreas Scorilas +15 more
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Due to its highly heterogenous molecular landscape, bladder cancer (BlCa) is still characterized by non-personalized prognosis and treatment decisions.
Andreas Scorilas +15 more
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Deciphering the Epitranscriptome in Cancer
Trends in Cancer, 2018Technological and methodological advancements have recently revolutionized our understanding of widespread epitranscriptome including RNA modifications and editing. N6-methyladenosine (m6A) represents the most prevalent internal modification in mammalian RNAs. Adenosine to inosine (A-to-I) RNA editing is an important mechanism underlying RNA generation
Hao, Lian +4 more
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YTHDF3 at the crossroads of the Epitranscriptome: Structure, networks, and disease roles.
Cellular SignallingN6-methyladenosine (m6A) is the predominant internal RNA modification that programs RNA splicing, stability, translation, and decay through writer, eraser, and reader proteins.
Kai Yu +4 more
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EXPLORING THE GLIOMA M6A RNA EPITRANSCRIPTOME WITH DIRECT RNA SEQUENCING
Neuro-OncologyDespite aggressive treatment, glioblastoma patients suffer from an invariably poor prognosis. Whilst substan- tial progress has been made in understanding the role of DNA methylation in brain tumour pathology, methy- lation of RNA has received ...
Simon Deacon +6 more
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Epitranscriptome‐Mediated Regulation of Neuronal Translation
Wiley Interdisciplinary Reviews - RNAEpitranscriptomic modification of RNA is an important layer of regulation for gene expression. RNA modifications come in many flavors and generate a complex tapestry of a regulatory network. Here, we focus on two major RNA modifications, one on rRNA (2′O
Syed Wasifa Qadri +2 more
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Nucleic Acids Research
The proper placement of N6-methyladenosine (m6A) on mRNA is essential for normal cell function, and its disruption is linked to numerous human diseases. The rapid growth of m6A data from diverse sequencing technologies presents challenges for integrative
Xichen Zhao +6 more
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The proper placement of N6-methyladenosine (m6A) on mRNA is essential for normal cell function, and its disruption is linked to numerous human diseases. The rapid growth of m6A data from diverse sequencing technologies presents challenges for integrative
Xichen Zhao +6 more
semanticscholar +1 more source