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Nucleosomes
Nucleosomes
Resveratrol, a natural phenolic compound, inhibits cell proliferation and prevents oxidative DNA damage
Genetic Toxicology / Flow Cytometry / Cell Cycle / Prostate Cancer / DNA damage / Apoptosis / Environmental Biotechnology / Cell Division / Cell line / Humans / Mutation / Reactive Oxygen Species / Mice / Female / Animals / Breast / Nucleosomes / nuclear DNA / Comet Assay / Phenolic compound / Rats / Stilbenes / Cell Proliferation / Tobacco Smoke / Oxidative Dna Damage / Human Fibroblasts / Oxidation-Reduction / Cell Growth / Apoptosis / Environmental Biotechnology / Cell Division / Cell line / Humans / Mutation / Reactive Oxygen Species / Mice / Female / Animals / Breast / Nucleosomes / nuclear DNA / Comet Assay / Phenolic compound / Rats / Stilbenes / Cell Proliferation / Tobacco Smoke / Oxidative Dna Damage / Human Fibroblasts / Oxidation-Reduction / Cell Growth
NGF-withdrawal induces apoptosis in pancreatic beta cells in vitro
Flow Cytometry / Apoptosis / Gene expression / Signal Transduction / Cell line / Humans / Mice / Animals / Male / Monoclonal Antibodies / Signal Transduction Pathway Models / Phosphorylation / Nucleosomes / Mitogen Activated Protein Kinase / Clinical Sciences / Middle Aged / Protein kinase B / Fluorescent Antibody Technique / Rats / Public health systems and services research / Western blot / Protein Expression / Primary Culture / Biological activity / Nerve Growth Factor / Sperm Dna Fragmentation / Cell Survival / islets of Langerhans / Humans / Mice / Animals / Male / Monoclonal Antibodies / Signal Transduction Pathway Models / Phosphorylation / Nucleosomes / Mitogen Activated Protein Kinase / Clinical Sciences / Middle Aged / Protein kinase B / Fluorescent Antibody Technique / Rats / Public health systems and services research / Western blot / Protein Expression / Primary Culture / Biological activity / Nerve Growth Factor / Sperm Dna Fragmentation / Cell Survival / islets of Langerhans
Anticorpos anti-C1q, anticromatina/nucleossomo e anti-dsDNA em pacientes com lúpus eritematoso sistêmico juvenil
DNA / Humans / Child / Systemic Lupus Erythematosus / Female / Male / Nucleosomes / Chromatin / Lupus Nephritis / Sensitivity and Specificity / Predictive value of tests / Autoantibodies / Male / Nucleosomes / Chromatin / Lupus Nephritis / Sensitivity and Specificity / Predictive value of tests / Autoantibodies
TCRalpha enhancer activation occurs via a conformational change of a pre-assembled nucleo-protein complex
Biological Sciences / DNA / Cell Differentiation / Mice / Animals / Genome / Nucleosomes / T lymphocytes / Protein Complex Detection / Molecular Conformation / B Lymphocytes / Base Sequence / DNA-footprinting / Conformational Change / Response Elements / Genome / Nucleosomes / T lymphocytes / Protein Complex Detection / Molecular Conformation / B Lymphocytes / Base Sequence / DNA-footprinting / Conformational Change / Response Elements
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
TCRalpha enhancer activation occurs via a conformational change of a pre-assembled nucleo-protein complex
Biological Sciences / DNA / Cell Differentiation / Mice / Animals / Genome / Nucleosomes / T lymphocytes / Protein Complex Detection / Molecular Conformation / B Lymphocytes / Base Sequence / DNA-footprinting / Conformational Change / Response Elements / Molecular Sequence Data / Genome / Nucleosomes / T lymphocytes / Protein Complex Detection / Molecular Conformation / B Lymphocytes / Base Sequence / DNA-footprinting / Conformational Change / Response Elements / Molecular Sequence Data
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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