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METTL3
METTL3-Mediated M6a Modification Is Required for Cerebellar Development
'Next- Generation' Sequencing Data Analysis
Promoter-Bound METTL3 Maintains Myeloid Leukaemia Via M6a-Dependent Translation Control
RNA–Protein Interaction Mapping Via MS2- Or Cas13-Based APEX Targeting
Novel Insights Into the M6a-RNA Methyltransferase METTL3 in Cancer
RNA M6a Methylation Participates in Regulation of Postnatal Development
Content Based Search in Gene Expression Databases and a Meta-Analysis of Host Responses to Infection
Inhibiting PARP1 Splicing Along with Inducing DNA Damage As Potential Breast Cancer Therapy
The SMAD2/3 Interactome Reveals That Tgfβ Controls M A
Structure and Regulation of ZCCHC4 in M6a-Methylation of 28S Rrna
METTL16, Methyltransferase-Like Protein 16: Current Insights Into Structure and Function
Knuckles, Lence Et Al. 1 Zc3h13/Flacc Is Required for Adenosine
Acute Depletion of METTL3 Implicates N6-Methyladenosine in Alternative Intron/Exon Inclusion in the Nascent Transcriptome
Intron Depletion, Distinct Early Coding Sequence Features, and N1-Methyladenosine Modification
Protein Interactions in Mrna Methylation Complexes
Inhibition of the Pim1 Oncogene Results in Diminished Visual Function
Mrna Circularization by METTL3-Eif3h Enhances Translation and Promotes Oncogenesis
METTL3-Dependent N6-Methyladenosine RNA Modification Mediates the Atherogenic Inflammatory Cascades in Vascular Endothelium
Top View
N6-Methyladenosine Modification Destabilizes Developmental
N6-Methyladenosine Mrna Marking Promotes Selective Translation of Regulons Required for Human Erythropoiesis
RNA Structure Maps Across Mammalian Cellular Compartments
A Common Class of Transcripts with 5'-Intron Depletion, Distinct Early Coding Sequence Features, and N1-Methyladenosine Modification
The METTL3-M6a Epitranscriptome: Dynamic Regulator of Epithelial Development, Differentiation, and Cancer
Unraveling the Molecular Mechanism Underlying ALS-Linked Astrocyte
Data Mining for Identifying Key Genes in Biological Processes Using
Zc3h13/Flacc Is Required for Adenosine Methylation by Bridging the Mrna- Binding Factor Rbm15/Spenito to the M6a Machinery Component Wtap/Fl(2)D
METTL3 (E-14): Sc-104990
The Epitranscriptome M6a Writer METTL3 Promotes Chemo- and Radioresistance in Pancreatic Cancer Cells
RNA Structure Drives Interaction with Proteins