Increased initial levels of chromosome damage and heterogeneous chromosome repair in ataxia telangiectasia heterozygote cells

Biochemistry, Genetics and Molecular Biology

• Chromosome Damage 100%
• Genetic Carrier 100%
• Heterozygote 100%
• Homozygote 75%
• Double-Strand DNA Break 50%
• G1 Phase 50%
• G2 Phase 50%
• Premature Chromosome Condensation 50%
• S Phase 25%
• Cell Survival 25%
• Elution 25%

Keyphrases

• Chromosome Damage 100%
• Ataxia Telangiectasia 100%
• Heterozygote 100%
• Homozygote 25%
• DNA Double-strand Breaks 16%
• Irradiation 16%
• Chromosome-level 16%
• G2 Phase 16%
• G1 Phase 16%
• Premature Chromosome Condensation 16%
• Sigma Phase 8%
• No Significant Difference 8%
• Cell Survival 8%
• Lymphoblastoid Cell Lines 8%
• Cancer Risk 8%
• Cellular Phenotype 8%
• Excess Risk 8%
• Fast Repair 8%
• Lymphoblastoid Cells 8%
• Level of Repair 8%
• Damage Level 8%