Turnover atlas of proteome and phosphoproteome across mouse tissues and brain regions
Li W, Dasgupta A, Yang K, Wang S, Hemandhar-Kumar N, Chepyala S, Yarbro J, Hu Z, Salovska B, Fornasiero E, Peng J, Liu Y. Turnover atlas of proteome and phosphoproteome across mouse tissues and brain regions. Cell 2025, 188: 2267-2287.e21. PMID: 40118046, PMCID: PMC12033170, DOI: 10.1016/j.cell.2025.02.021.Peer-Reviewed Original ResearchConceptsMouse tissuesNeurodegeneration-related proteinsPost-translational modificationsImpact of phosphorylationStable isotope labelingLong-lived proteinsPeroxisomal proteinsProtein lifetimeProteomic propertiesProtein phosphorylationProtein stabilityInteractive web-based portalProtein abundanceProtein turnoverPhosphorylationMammalian tissuesComprehensive resourceProteinIsotope labelingProteomicsA-synucleinAbundanceTurnoverTurnover changesPhosphositesHuman and mouse proteomics reveals the shared pathways in Alzheimer’s disease and delayed protein turnover in the amyloidome
Yarbro J, Han X, Dasgupta A, Yang K, Liu D, Shrestha H, Zaman M, Wang Z, Yu K, Lee D, Vanderwall D, Niu M, Sun H, Xie B, Chen P, Jiao Y, Zhang X, Wu Z, Chepyala S, Fu Y, Li Y, Yuan Z, Wang X, Poudel S, Vagnerova B, He Q, Tang A, Ronaldson P, Chang R, Yu G, Liu Y, Peng J. Human and mouse proteomics reveals the shared pathways in Alzheimer’s disease and delayed protein turnover in the amyloidome. Nature Communications 2025, 16: 1533. PMID: 39934151, PMCID: PMC11814087, DOI: 10.1038/s41467-025-56853-3.Peer-Reviewed Original ResearchConceptsAlzheimer's diseaseProtein turnoverMouse model of amyloidosisMulti-omics analysisMurine model of Alzheimer's diseaseModel of Alzheimer's diseaseModel of amyloidosisProteome turnoverMouse proteomeGenetic incorporationAD pathwayAmyloid formationBrain proteomeMulti-OmicsProteomic strategyAD progressionProteomicsProtein alterationsProteinDisease mechanismsAmyloidPathwayPotential targetMouse brainTurnover
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