PKA

Proteomic Identification of M.tuberculosis Protein Kinase Substrates: PknB Recruits GarA, a FHA Domain-containing Protein, Through Activation Loop-mediated Interactions

Molecular Biology / Proteomics / Signal Transduction / Molecular / Tuberculosis / Mycobacterium tuberculosis / Protein Kinases / Ms / Phosphorylation / PKA / Substrate Specificity / Protein Kinase / Amino Acid Sequence / Protein Binding / Biochemistry and cell biology / Mycobacterium tuberculosis / Protein Kinases / Ms / Phosphorylation / PKA / Substrate Specificity / Protein Kinase / Amino Acid Sequence / Protein Binding / Biochemistry and cell biology

Proteomic Identification of M.tuberculosis Protein Kinase Substrates: PknB Recruits GarA, a FHA Domain-containing Protein, Through Activation Loop-mediated Interactions

Molecular Biology / Proteomics / Signal Transduction / Molecular / Tuberculosis / Mycobacterium tuberculosis / Protein Kinases / Ms / Phosphorylation / PKA / Substrate Specificity / Protein Kinase / Amino Acid Sequence / Protein Binding / Biochemistry and cell biology / Mycobacterium tuberculosis / Protein Kinases / Ms / Phosphorylation / PKA / Substrate Specificity / Protein Kinase / Amino Acid Sequence / Protein Binding / Biochemistry and cell biology

Detecting cAMP-induced Epac activation by fluorescence resonance energy transfer: Epac as a novel cAMP indicator

Fluorescence Resonance Energy Transfer / Humans / cyclic AMP / Animals / FRET / PKA / Biological markers / Protein Conformation / In Vitro Studies / Signal to Noise Ratio / Conformational Change / Biosensing Techniques / Biochemistry and cell biology / Dynamic Range / PKA / Biological markers / Protein Conformation / In Vitro Studies / Signal to Noise Ratio / Conformational Change / Biosensing Techniques / Biochemistry and cell biology / Dynamic Range

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