Proteome-wide quantitative RNA interactome capture (qRIC) identifies phosphorylation sites with regulatory potential in RBM20

Matthias Selbach's research works Max-Delbrück-Centrum für Molekulare Medizin, Berlin (MDC) and other places

CASTT: Cardiac Splicing as a Therapeutic Target

Approaches to q-AP-MS experiments. (A) The left hand side depicts

R2‐P2 rapid‐robotic phosphoproteomics enables multidimensional

Matthias Selbach's research works Max-Delbrück-Centrum für Molekulare Medizin, Berlin (MDC) and other places

PDF) Proteome-wide quantitative RNA interactome capture (qRIC) identifies phosphorylation sites with regulatory potential in RBM20

Proteomes, Free Full-Text

PDF) Nucleolin phosphorylation regulates PARN deadenylase activity during cellular stress response

PDF) Proteome-wide quantitative RNA-interactome capture identifies phosphorylation sites with regulatory potential in RBM20

PDF) RBM20 phosphorylation on serine/arginine domain is crucial to regulate pre-mRNA splicing and protein shuttling in the heart

System-wide identification of RNA-binding proteins by interactome

RNA Affinity Purifications. (A) Schematic workflow of RNA affinity

PDF) Proteome-wide quantitative RNA interactome capture (qRIC) identifies phosphorylation sites with regulatory potential in RBM20

Uncovering viral RNA–host cell interactions on a proteome-wide

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