The Quantitative Biotinylproteomics Studies Reveal a WInd-Related Kinase 1 (Raf-Like Kinase 36) Functioning as an Early Signaling Component in Wind-Induced Thigmomorphogenesis and Gravitropism. Read more about The Quantitative Biotinylproteomics Studies Reveal a WInd-Related Kinase 1 (Raf-Like Kinase 36) Functioning as an Early Signaling Component in Wind-Induced Thigmomorphogenesis and Gravitropism.
MCP's New Editorial Posture Moving Forward. Read more about MCP's New Editorial Posture Moving Forward.
Quantitative Proteomic Analysis Reveals apoE4-Dependent Phosphorylation of the Actin-Regulating Protein VASP. Read more about Quantitative Proteomic Analysis Reveals apoE4-Dependent Phosphorylation of the Actin-Regulating Protein VASP.
Chemical Genetic Identification of PKC Epsilon Substrates in Mouse Brain. Read more about Chemical Genetic Identification of PKC Epsilon Substrates in Mouse Brain.
Capture, Release, and Identification of Newly Synthesized Proteins for Improved Profiling of Functional Translatomes. Read more about Capture, Release, and Identification of Newly Synthesized Proteins for Improved Profiling of Functional Translatomes.
TEAD Proteins Associate With DNA Repair Proteins to Facilitate Cellular Recovery From DNA Damage. Read more about TEAD Proteins Associate With DNA Repair Proteins to Facilitate Cellular Recovery From DNA Damage.
In-Cell Chemical Crosslinking Identifies Hotspots for SQSTM-1/p62-IκBα Interaction That Underscore a Critical Role of p62 in Limiting NF-κB Activation Through IκBα Stabilization. Read more about In-Cell Chemical Crosslinking Identifies Hotspots for SQSTM-1/p62-IκBα Interaction That Underscore a Critical Role of p62 in Limiting NF-κB Activation Through IκBα Stabilization.
A New Monoclonal Antibody Enables BAR Analysis of Subcellular Importin β1 Interactomes. Read more about A New Monoclonal Antibody Enables BAR Analysis of Subcellular Importin β1 Interactomes.
Discovery Proteomics Analysis Determines That Driver Oncogenes Suppress Antiviral Defense Pathways Through Reduction in Interferon-β Autocrine Stimulation. Read more about Discovery Proteomics Analysis Determines That Driver Oncogenes Suppress Antiviral Defense Pathways Through Reduction in Interferon-β Autocrine Stimulation.
In-Depth Matrisome and Glycoproteomic Analysis of Human Brain Glioblastoma Versus Control Tissue. Read more about In-Depth Matrisome and Glycoproteomic Analysis of Human Brain Glioblastoma Versus Control Tissue.
