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S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK

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Last updated 12 abril 2025
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
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
S. Typhimurium impairs glycolysis-mediated acidification of phagosomes to evade macrophage defense
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
Nirmal Robinson - Adelaide, South Australia, Australia, Professional Profile
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Frontiers The role of SIRT1 in the process of Toxoplasma gondii infection of RAW 264.7 macrophages
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
S. Typhimurium impairs glycolysis-mediated acidification of phagosomes to evade macrophage defense
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
Toll‐like receptor signalling cross‐activates the autophagic pathway to restrict Salmonella Typhimurium growth in macrophages - Liu - 2019 - Cellular Microbiology - Wiley Online Library
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
Host sirtuin 2 as an immunotherapeutic target against tuberculosis
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
JNK Signaling: Regulation and Functions Based on Complex Protein-Protein Partnerships
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
The Salmonella effectors SseF and SseG inhibit Rab1A-mediated autophagy to facilitate intracellular bacterial survival and replication - ScienceDirect
S. Typhimurium evades autophagy by disrupting Sirt1-dependent AMPK
LC3B Antibody - BSA Free (NB100-2220): Novus Biologicals
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