β-Catenin induces T-cell transformation by promoting genomic instability

Keyphrases

• Catenin 100%
• T Cells 100%
• Cell Transformation 100%
• Genomic Instability 100%
• DNA Damage 50%
• Thymocytes 50%
• Recombination Activating Gene 50%
• Lymphoma 33%
• Binding Site 16%
• Transcription Factor 16%
• Apoptotic Genes 16%
• Gene Expression Profile 16%
• In Cancer 16%
• Histone H3 16%
• Mechanistic Insight 16%
• Recombination Event 16%
• T-cell Lymphoma 16%
• Lysine 16%
• Improved Survival 16%
• Recurring 16%
• RAG2 16%
• Cell-type-specific Gene Expression 16%
• DNA Double-strand Breaks 16%
• Specific Transcription Factor 16%
• Double-strand Break Repair 16%
• Thymocyte Development 16%
• Transformation Process 16%
• Oncogenic Translocations 16%
• Gene Recombination 16%
• ChIP-seq Analysis 16%
• H3K4me3 16%
• Illegitimate Recombination 16%
• Myelocytomatosis Oncogene 16%

Biochemistry, Genetics and Molecular Biology

• Catenin 100%
• T Cell 100%
• Genome Instability 100%
• Cell Transformation 100%
• Thymocyte 66%
• Recombination-Activating Gene 50%
• DNA Damage 33%
• Transcription Factors 33%
• Fibrinogen 33%
• Binding Site 16%
• Gene Expression 16%
• Carcinogenesis 16%
• Histone H3 16%
• Animal Model 16%
• Transcription 16%
• Genetic Recombination 16%
• Myc 16%
• Oncogene Myc 16%
• RAG2 16%
• Lysine 16%
• Double-Strand DNA Break 16%

Immunology and Microbiology

• T Cell 100%
• Catenin 100%
• Genomic Instability 100%
• Cell Transformation 100%
• Thymocyte 66%
• Recombination-Activating Gene 50%
• Transcription Factors 33%
• DNA Damage 33%
• Fibrinogen 33%
• Gene Expression 16%
• Binding Site 16%
• Genetic Recombination 16%
• Oncogene Myc 16%
• Histone 16%
• Lysine 16%
• Double-Strand DNA Break 16%