Phosphotyrosine

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

Insulin-Mediated Cellular Insulin Resistance Decreases Osmotic Shock-Induced Glucose Transport in 3T3-L1 Adipocytes

Endocrinology / Signal Transduction / Biological Sciences / Insulin Resistance / Glucose / Insulin / Mice / Animals / Osmotic pressure / Phosphorylation / T cells / Phosphotyrosine / Clinical Sciences / Glucose Transport / Adipocytes / Glucose Uptake / Plasma Membrane / Tyrosine Phosphorylation / Cell Membrane / Insulin / Mice / Animals / Osmotic pressure / Phosphorylation / T cells / Phosphotyrosine / Clinical Sciences / Glucose Transport / Adipocytes / Glucose Uptake / Plasma Membrane / Tyrosine Phosphorylation / Cell Membrane

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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