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MAP Kinase pathway and its regulation
MAP Kinase pathway and its regulation
Induction of indoleamine 2, 3-dioxygenase by death receptor activation contributes to apoptosis of melanoma cells via mitochondrial damage-dependent ROS accumulation
Transcription Regulation / Apoptosis / Gene expression / MAP Kinase pathway and its regulation / Molecular Mechanics / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology
Induction of indoleamine 2, 3-dioxygenase by death receptor activation contributes to apoptosis of melanoma cells via mitochondrial damage-dependent ROS …
Transcription Regulation / Apoptosis / Gene expression / MAP Kinase pathway and its regulation / Molecular Mechanics / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology
Induction of indoleamine 2, 3-dioxygenase by death receptor activation contributes to apoptosis of melanoma cells via mitochondrial damage-dependent ROS …
Transcription Regulation / Apoptosis / Gene expression / MAP Kinase pathway and its regulation / Molecular Mechanics / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology / RNA interference / Cellular Signalling / Humans / Reactive Oxygen Species / Melanoma / NF-kappa B / Cell Signalling / Caspase / Tumor necrosis factor-alpha / Tumor Necrosis Factor–α (TNF) / Mitochondrial Membrane Potential / Biochemistry and cell biology
The mitochondrial protease HtrA2 is regulated by Parkinson\'s disease-associated kinase PINK1
MAP Kinase pathway and its regulation / Signal Transduction / Biological Sciences / Cell line / Brain / Humans / Protein Kinases / Mutation / Mice / Animals / Phosphorylation / Mitochondrial dysfunction / Protein Kinase / Autosomal Recessive / Serine Protease / Site-directed Mutagenesis / Parkinson Disease / Proteolytic activity / Mitochondrial Proteins / Humans / Protein Kinases / Mutation / Mice / Animals / Phosphorylation / Mitochondrial dysfunction / Protein Kinase / Autosomal Recessive / Serine Protease / Site-directed Mutagenesis / Parkinson Disease / Proteolytic activity / Mitochondrial Proteins
Senescence of Primary Amniotic Cells via Oxidative DNA Damage
Engineering / Physics / Chemistry / Biology / Tobacco / Oxidative Stress / DNA damage / Medicine / Multidisciplinary / MAP Kinase pathway and its regulation / Pregnancy / Humans / Reactive Oxygen Species / Female / Phosphorylation / PLoS one / Epithelial cells / Amnion / Oxidative Stress / DNA damage / Medicine / Multidisciplinary / MAP Kinase pathway and its regulation / Pregnancy / Humans / Reactive Oxygen Species / Female / Phosphorylation / PLoS one / Epithelial cells / Amnion
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