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Genome Rearrangement
Genome Rearrangement
Chronic oxidative DNA damage due to DNA repair defects causes chromosomal instability in Saccharomyces cerevisiae
Genetics / Oxidative Stress / DNA damage / DNA repair / Molecular Mechanics / Free Radical / Biological Sciences / High Frequency / Saccharomyces cerevisiae / Molecular and cellular biology / Reactive Oxygen Species / Nucleic acid hybridization / Gene Duplication / Time Factors / Oxidative Damage / Model System / Genetic Instability / Genomic instability / Genetic Recombination / Genome Rearrangement / Chronic Inflammation / Large Scale / Oxidative Dna Damage / Chromosomal Instability / Bacterial Infection / Diploidy / Mutation Rate / Base Excision Repair / Free Radical / Biological Sciences / High Frequency / Saccharomyces cerevisiae / Molecular and cellular biology / Reactive Oxygen Species / Nucleic acid hybridization / Gene Duplication / Time Factors / Oxidative Damage / Model System / Genetic Instability / Genomic instability / Genetic Recombination / Genome Rearrangement / Chronic Inflammation / Large Scale / Oxidative Dna Damage / Chromosomal Instability / Bacterial Infection / Diploidy / Mutation Rate / Base Excision Repair
RNA-Mediated Programming of Developmental Genome Rearrangements in Paramecium tetraurelia
Gene Silencing / Biological Sciences / Molecular and cellular biology / Micronuclei / Animals / Genetic transformation / Gene Dosage / Genome Rearrangement / Base Sequence / double-stranded RNA / Nucleotides / Vegetative Growth / Genetic transformation / Gene Dosage / Genome Rearrangement / Base Sequence / double-stranded RNA / Nucleotides / Vegetative Growth
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