Optofluidic System Preparation, Cell Loading, and Cell Penning
4:27
Single-cell Infection and Functional Imaging
5:24
Results: Single-Cell Characterization of Calcium Influx and HIV-1 Infection
6:20
Conclusion
Transcript
This protocol can capture real-time kinetics on a single-cell level. We can measure individual cell parameters in response to HIV infection and associate early signaling events with delayed steps of the viral lifecycle. This is an integrated scala
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Here, we present a protocol in which single cells are monitored for acute events and productive HIV-1 infection on a nanofluidic device. Imaging data define virus-host receptor interactions and signaling pathway dynamics. This is the first method for nanofluidic high-throughput longitudinal single-cell culture and imaging to study signaling kinetics and molecular interactions.