2023
DOI: 10.7717/peerj.15799
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Transcriptomic characterization revealed that METTL7A inhibits melanoma progression via the p53 signaling pathway and immunomodulatory pathway

Abstract: METTL7A is a protein-coding gene expected to be associated with methylation, and its expression disorder is associated with a range of diseases. However, few research have been carried out to explore the relationship between METTL7A and tumor malignant phenotype as well as the involvement potential mechanism. We conducted our research via a combination of silico analysis and molecular biology techniques to investigate the biological function of METTL7A in the progression of cancer. Gene expression and clinical… Show more

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“…In contrast, METTL7A plays a role in the translational regulation of cell biological processes. Some studies have reported that METTL7A can activate immune-related pathways and the P53 signaling pathway to inhibit melanoma progression . Furthermore, DNA methylation by METTL7A promotes osteogenic and odontogenic differentiation by upregulating gene expression, which in turn promotes differentiation and survival .…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…In contrast, METTL7A plays a role in the translational regulation of cell biological processes. Some studies have reported that METTL7A can activate immune-related pathways and the P53 signaling pathway to inhibit melanoma progression . Furthermore, DNA methylation by METTL7A promotes osteogenic and odontogenic differentiation by upregulating gene expression, which in turn promotes differentiation and survival .…”
Section: Discussionmentioning
confidence: 99%
“…Some studies have reported that METTL7A can activate immune-related pathways and the P53 signaling pathway to inhibit melanoma progression. 56 Furthermore, DNA methylation by METTL7A promotes osteogenic and odontogenic differentiation by upregulating gene expression, which in turn promotes differentiation and survival. 30 The above reports indicate that METTL7A targets the transcriptional regulation of genes by alteration of DNA methylation.…”
Section: ■ Discussionmentioning
confidence: 99%