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DNA damage response
DNA damage response
The Cdc14B-Cdh1-Plk1 Axis Controls the G2 DNA-Damage-Response Checkpoint
DNA damage / DNA repair / Signal Transduction / Biological Sciences / Mitosis / Humans / Cell / Cell nucleus / DNA damage response / Neoplasms / Signaling / Cell Cycle Proteins / Humans / Cell / Cell nucleus / DNA damage response / Neoplasms / Signaling / Cell Cycle Proteins
ES cells do not activate p53-dependent stress responses and undergo p53-independent apoptosis in response to DNA damage
Stem Cells / Human Embryonic Stem Cells / Cell Cycle / DNA replication / Gamma Rays / DNA damage / Apoptosis / Biological Sciences / Cell Differentiation / Humans / Stress response / Programmed cell death / D-Aspartic Acid / Doxorubicin / Cell nucleus / DNA damage response / Tretinoin / Transfection / Cell Cycle Arrest / Embryos / Nucleotides / ES cell / Nuclear Localization / Somatic Cells / DNA damage / Apoptosis / Biological Sciences / Cell Differentiation / Humans / Stress response / Programmed cell death / D-Aspartic Acid / Doxorubicin / Cell nucleus / DNA damage response / Tretinoin / Transfection / Cell Cycle Arrest / Embryos / Nucleotides / ES cell / Nuclear Localization / Somatic Cells
The Cdc14B-Cdh1-Plk1 Axis Controls the G2 DNA-Damage-Response Checkpoint
DNA damage / DNA repair / Signal Transduction / Biological Sciences / Mitosis / Humans / Cell / Cell nucleus / DNA damage response / Neoplasms / Signaling / Cell Cycle Proteins / Humans / Cell / Cell nucleus / DNA damage response / Neoplasms / Signaling / Cell Cycle Proteins
CELLULAR RESPONSES TO DNA DAMAGE
Engineering / Pharmacology / Environmental Health / Radiation Biology / Cell Cycle / DNA damage / DNA repair / Apoptosis / Signal Transduction / Biological Sciences / DNA / Environmental Sciences / Humans / Mutagenesis / Mutation / Escherichia coli / Animals / Cell Death / Pharmacology and toxicology / Fission yeast / Nucleotide Excision Repair / Public health systems and services research / DNA damage response / UV light / Genomic instability / Cell cycle checkpoints / Veterinary Sciences / Ionizing Radiation / Cell Survival / Mutagens / Base Excision Repair / Biochemistry and cell biology / DNA damage / DNA repair / Apoptosis / Signal Transduction / Biological Sciences / DNA / Environmental Sciences / Humans / Mutagenesis / Mutation / Escherichia coli / Animals / Cell Death / Pharmacology and toxicology / Fission yeast / Nucleotide Excision Repair / Public health systems and services research / DNA damage response / UV light / Genomic instability / Cell cycle checkpoints / Veterinary Sciences / Ionizing Radiation / Cell Survival / Mutagens / Base Excision Repair / Biochemistry and cell biology
Mre11 Assembles Linear DNA Fragments into DNA Damage Signaling Complexes
DNA replication / DNA damage / Atomic Force Microscopy / Western blotting / Signal Transduction / Biological Sciences / DNA / Xenopus / Humans / Mutation / Animals / Peptides / Zinc / Phenotype / DNA damage response / Molecular weight / Recombinant Proteins / Sperm Dna Fragmentation / Protein Binding / DNA binding proteins / Ataxia Telangiectasia / Dimerization / Biotinylation / Biological Sciences / DNA / Xenopus / Humans / Mutation / Animals / Peptides / Zinc / Phenotype / DNA damage response / Molecular weight / Recombinant Proteins / Sperm Dna Fragmentation / Protein Binding / DNA binding proteins / Ataxia Telangiectasia / Dimerization / Biotinylation
WSTF regulates the H2A.X DNA damage response via a novel tyrosine kinase activity
DNA damage / Transcription Factors / Multidisciplinary / Nature / Humans / Mice / Animals / Cell Death / Chromatin remodeling / Phosphorylation / Williams- Beuren Syndrome / Nucleosomes / Transcription Factor / Phosphotyrosine / Histones / DNA damage response / Genomic instability / Tyrosine Kinase / Mice / Animals / Cell Death / Chromatin remodeling / Phosphorylation / Williams- Beuren Syndrome / Nucleosomes / Transcription Factor / Phosphotyrosine / Histones / DNA damage response / Genomic instability / Tyrosine Kinase
Human cell senescence as a DNA damage response
Telomeres / DNA damage / Clinical Sciences / DNA damage response / Protein Kinase / Histone
WSTF regulates the H2A.X DNA damage response via a novel tyrosine kinase activity
DNA damage / Transcription Factors / Multidisciplinary / Nature / Humans / Mice / Animals / Cell Death / Chromatin remodeling / Phosphorylation / Williams- Beuren Syndrome / Nucleosomes / Transcription Factor / Phosphotyrosine / Histones / DNA damage response / Genomic instability / Tyrosine Kinase / DNA double strand breaks / Mice / Animals / Cell Death / Chromatin remodeling / Phosphorylation / Williams- Beuren Syndrome / Nucleosomes / Transcription Factor / Phosphotyrosine / Histones / DNA damage response / Genomic instability / Tyrosine Kinase / DNA double strand breaks
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