NSUN2-mediated HCV RNA m5C Methylation Facilitates Viral RNA Stability and Replication
Genomics, Proteomics & BioinformaticsAbstract RNA modifications have emerged as new efficient targets against viruses. However, little is known about 5-methylcytosine (m5C) modification in the genomes of flaviviruses. Herein, we demonstrate that hepatitis C virus (HCV), dengue virus, and Zika virus exhibit high levels of viral RNA m5C modification. We identified an m5C site
Zhu-Li Li +5 more
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NSUN2 promoted tumor growth and metastatic via m<sup>5</sup>C-regulation of YAP through ALYREF/YBX1 axis in NSCLC. [PDF]
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m5C RNA methylation is dysregulated by oncogenic herpesviruses via c-Myc signaling to counteract host antiviral factors. [PDF]
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Deep learning model and omics screening highlight angiotensinogen as a 5-methylcytosine (m<sup>5</sup>C) regulated mediator of tumor-microenvironment communication in liver cancer. [PDF]
Front ImmunolPang H, Wang L, Li Y, Zhou Y.
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Emerging roles of RNA N5-methylcytosine modification in reproductive physiology and gynecological diseases. [PDF]
EpigeneticsLv F +10 more
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