Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance - ScienceDirect
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FTO-dependent N(6)-Methyladenosine regulates the progression of endometriosis via the ATG5/PKM2 Axis - ScienceDirect
Ginsenosides in cancer: A focus on the regulation of cell metabolism - ScienceDirect
N6-methyladenosine-mediated gene regulation and therapeutic implications - ScienceDirect
Metabolic Instruction of Immunity - ScienceDirect
Tumors exploit FTO-mediated regulation of glycolytic metabolism to evade immune surveillance - ScienceDirect
N1-methyladenosine modification in cancer biology: Current status and future perspectives - Computational and Structural Biotechnology Journal
Cancer epitranscriptomics in a nutshell - ScienceDirect
Dual effects of N6-methyladenosine on cancer progression and immunotherapy: Molecular Therapy - Nucleic Acids
FTO-dependent N(6)-Methyladenosine regulates the progression of endometriosis via the ATG5/PKM2 Axis - ScienceDirect
New Immune Evasion Mechanism Achieved by FTO-mediated Regulation of Glycolytic Metabolism----Chinese Academy of Sciences
The potential role of m6A modifications on immune cells and immunotherapy - ScienceDirect
Targeting N6-methyladenosine RNA modification combined with immune checkpoint Inhibitors: A new approach for cancer therapy - Computational and Structural Biotechnology Journal
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