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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK

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Last updated 09 novembro 2024
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
The evolutionary tug-of-war of macrophage metabolism during bacterial infection: Trends in Endocrinology & Metabolism
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Therapeutic Targeting of Autophagy in Disease: Biology and Pharmacology
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Full article: Regulation and repurposing of nutrient sensing and autophagy in innate immunity
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Activation of TGF-β-activated kinase 1 (TAK1) restricts Salmonella Typhimurium growth by inducing AMPK activation and autophagy
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Cells, Free Full-Text
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Cells, Free Full-Text
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Autophagy in intracellular bacterial infection - ScienceDirect
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Salmonella Typhimurium impairs glycolysis-mediated acidification of phagosomes to evade macrophage defense
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