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YTHDC2
Identification of the Binding Partners for Hspb2 and Cryab Reveals
The Role of Cyclin B3 in Mammalian Meiosis
Ythdc2 Is an N6-Methyladenosine Binding Protein That Regulates Mammalian Spermatogenesis
'Next- Generation' Sequencing Data Analysis
Datasheet Blank Template
Ketu Mutant Mice Uncover an Essential Meiotic Function for the Ancient, Putative RNA Helicase YTHDC2
Downregulation of M6a Reader YTHDC2 Promotes the Proliferation
Mechanisms Underlying Phenotypic Heterogeneity in Simplex Autism Spectrum Disorders
35440 YTHDC2 Antibody
Human Proteins That Interact with RNA/DNA Hybrids
Analyses of PDE-Regulated Phosphoproteomes Reveal Unique
393LN V 393P 344SQ V 393P Probe Set Entrez Gene
Molecular Sciences High-Resolution Chromosome Ideogram Representation of Currently Recognized Genes for Autism Spectrum Disorder
INTRODUCING a NOVEL METHOD for GENETIC ANALYSIS of AUTISM SPECTRUM DISORDER Sepideh Nouri
Amplification of a Broad Transcriptional Program by a Common Factor Triggers the Meiotic Cell Cycle in Mice
Downloaded Definitions for 4,716 Human and Murine (Mammalian) Pathways
YTHDC1 (P561) Antibody -20ºC Store At
YTHDC2 Is Essential for Pachytene Progression and Prevents Aberrant Microtubule- Driven Telomere Clustering in Male Meiosis
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YTHDF2/3 Are Required for Somatic Reprogramming Through Different RNA Deadenylation Pathways
Genome-Wide Association Study in European Patients with Congenital
Drug Development in Dengue Virus and Molecular Epidemiology of Malaria in Western
Interactions and Functions of RNA-Binding Proteins
Gene Expression Profiling and Functional Studies of Astrocytes in SOD1-Related Amyotrophic Lateral Sclerosis
Ketu Mutant Mice Uncover an Essential Meiotic Function for the Ancient
The M6a Reader Protein YTHDC2 Interacts with the Small Ribosomal Subunit and the 5′′′′′–3′′′′′ Exoribonuclease XRN1
The M6a Reader Protein YTHDC2 Interacts with the Small Ribosomal Subunit and the 5’-3’ Exoribonuclease XRN1
RNA Structure Drives Interaction with Proteins
(12) United States Patent (10) Patent No.: US 8,840,881 B2 J00SS Et Al
WO 2013/003384 Al O©