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Sensitive and Deep Coverage Phosphoproteome Detection Method Reveals Spleen as a More Sensitive Organ than Liver in Early Detection of Liver Fibrosis-Related Signaling Protein Dysregulation | Analytical Chemistry

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Sensitive and Deep Coverage Phosphoproteome Detection Method Reveals Spleen as a More Sensitive Organ than Liver in Early Detection of Liver Fibrosis-Related Signaling Protein Dysregulation | Analytical Chemistry

Sensitive and Deep Coverage Phosphoproteome Detection Method Reveals Spleen  as a More Sensitive Organ than Liver in Early Detection of Liver  Fibrosis-Related Signaling Protein Dysregulation | Analytical ChemistrySensitive and Deep Coverage Phosphoproteome Detection Method Reveals Spleen as a More Sensitive Organ than Liver in Early Detection of Liver Fibrosis-Related Signaling Protein Dysregulation | Analytical Chemistry,The Effect of Grain Boundary Facet Junctions on Segregation and  Embrittlement - ScienceDirectThe Effect of Grain Boundary Facet Junctions on Segregation and Embrittlement - ScienceDirect,A taxonomic backbone for the Plumbaginaceae (Caryophyllales)A taxonomic backbone for the Plumbaginaceae (Caryophyllales),Superior electrochemical water oxidation in vacancy defect-rich 1.5 nm  ultrathin trimetal-organic framework nanosheets - ScienceDirectSuperior electrochemical water oxidation in vacancy defect-rich 1.5 nm ultrathin trimetal-organic framework nanosheets - ScienceDirect,FuncPhos-STR: An integrated deep neural network for functional phosphosite  prediction based on AlphaFold protein structure and dynamics - ScienceDirectFuncPhos-STR: An integrated deep neural network for functional phosphosite prediction based on AlphaFold protein structure and dynamics - ScienceDirect

 

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