Results 11 to 20 of about 169,673 (308)
CircMarker: a fast and accurate algorithm for circular RNA detection
BMC Genomics, 2018 Background While RNA is often created from linear splicing during transcription, recent studies have found that non-canonical splicing sometimes occurs. Non-canonical splicing joins 3’ and 5’ and forms the so-called circular RNA.
Xin Li +4 more
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Circular RNA—Is the Circle Perfect?
Biomolecules, 2021 Circular RNA (circRNA) is a distinct class of non-coding RNA produced, in principle, using a back-splicing mechanism, conserved during evolution, with increased stability and a tissue-dependent expression.
Lavinia Caba +4 more
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, 2018 Although the type and amount of salivary components are influenced by many factors, due to easy, quick, cheap, and noninvasive sampling method alongside with the existence of the vast majority of the substances found in peripheral blood and urine in it, in recent years saliva has been considered as an ideal biofluid for disease research.
Ghods, Farinaz Jafari
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Circular RNA detection pipelines yield divergent sets of circular RNAs
Nature Methods, 2023 A decade ago, the first bioinformatics pipelines to detect circular RNA molecules based on short-read sequencing data were published. Here, we show that dozens of such circular RNA detection tools differ vastly in their sensitivity but not in their ...
Vandesompele, Jo, Vromman, Marieke
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Circular RNAs in Toxicology [PDF]
Toxicological Sciences, 2020 Abstract Circular RNAs (circRNAs) are a type of closed, long, non-coding RNAs, which have attracted significant attention in recent years. CircRNAs exhibit unique functions and are characterized by stable expression in various tissues across different species.
Yueting Shao, Yiguo Jiang
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Molecular Therapy - Nucleic Acids, 2019 Circular RNAs (circRNAs) are a class of single-stranded closed RNA molecules that are formed by precursor mRNA back-splicing or skipping events of thousands of genes in eukaryotes as covalently closed continuous loops. High-throughput sequencing and bioinformatics approaches have uncovered the broad expression of circRNAs across species.
Duc-Hiep Bach +2 more
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Biochimica et Biophysica Acta (BBA) - Gene Regulatory Mechanisms, 2020 Skeletal muscles have an immense ability to regenerate from the muscle stem cells called satellite cells. The process of skeletal muscle regeneration is called myogenesis, which starts with activation of quiescent satellite cells immediately after muscle injury followed by proliferation and fusion of myoblasts into myotubes.
Arundhati, Das +4 more
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In vitro circularization of RNA [PDF]
RNA Biology, 2016 Over the past 2 decades, different types of circular RNAs have been discovered in all kingdoms of life, and apparently, those circular species are more abundant than previously thought. Apart from circRNAs in viroids and viruses, circular transcripts have been discovered in rodents more than 20 y ago and recently have been reported to be abundant in ...
Sabine, Müller, Bettina, Appel
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CIRCULAR RNA – miRNA MEDIATED INTERACTION IN MYOCARDIAL INFARCTION [PDF]
Journal of IMAB, 2021 Circular RNA (circRNAs) belong to the long non-coding RNA family, but unlike the linear RNA in circular RNA, the 3’ and 5’ end in the RNA molecule are joined together, forming their circular structure.
Yordanka Doneva +5 more
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Circular RNAs—The Road Less Traveled
Frontiers in Molecular Biosciences, 2020 Circular RNAs are the most recent addition in the non-coding RNA family, which has started to gain recognition after a decade of obscurity. The first couple of reports that emerged at the beginning of this decade and the amount of evidence that has ...
Ashirbad Guria +3 more
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