In Vivo Measurement by FRET of Pathway Activity in Bacterial Chemotaxis

Keyphrases

• Single-molecule Fluorescence Resonance Energy Transfer (smFRET) 100%
• In Vivo Measurement 100%
• Pathway Activity 100%
• CheY 100%
• Bacterial Chemotaxis 100%
• Signal Processing 66%
• Chemotaxis 66%
• Steady State 33%
• Phosphorylation 33%
• Cellular Level 33%
• Phosphatase 33%
• Escherichia Coli 33%
• Protein-protein Interaction 33%
• Living Cells 33%
• Cell Population 33%
• Extracellular Signal-regulated Kinase 33%
• Activity-dependent 33%
• Physiological Response 33%
• Computer Modeling 33%
• Kinase Activity 33%
• Two-component 33%
• Response Regulator 33%
• Signaling Network 33%
• Dephosphorylation 33%
• Weak Signal 33%
• Analysis Modeling 33%
• Chemotaxis Receptor 33%
• Multiple Attempts 33%
• Quantitative Application 33%
• Bioluminescence Resonance Energy Transfer 33%
• Mathematical Analysis 33%

Biochemistry, Genetics and Molecular Biology

• Fluorescence Resonance Energy Transfer 100%
• Chemotaxis 100%
• Signal Processing 50%
• Cell Level 25%
• Genetics 25%
• Phosphotransferase 25%
• Kinase 25%
• Escherichia coli 25%
• Steady State 25%
• Protein Interaction 25%
• Energy Transfer 25%
• Biochemistry 25%
• Dephosphorylation 25%
• Phosphatase 25%
• Bioluminescence 25%