textjournal article
Micropatterned Aptasensors for Continuous Monitoring of Cytokine Release from Human Leukocytes
Abstract
We report the development of a microdevice for detecting local interferon gamma (IFN-γ) release from primary human leukocytes in real time. Our microdevice makes use of miniature aptamer-modified electrodes integrated with microfluidics to monitor cellular production of IFN-γ. The aptamer species consists of a DNA hairpin molecule with thiol groups on the 3′-end for self-assembly onto Au electrodes. A redox reporter is covalently attached at the 5′-end for electrochemical sensing. This aptasensor has excellent sensitivity for IFN-γ (–1 h–1 upon activation. The work described here represents an important step toward development of aptasensors for immune cell analysis and blood-based diagnostics- Text
- Journal contribution
- Cell Biology
- Biotechnology
- Immunology
- Plant Biology
- Space Science
- Chemical Sciences not elsewhere classified
- Micropatterned Aptasensors
- hydrogel patterns
- 15 min poststimulation
- glass slides
- Human LeukocytesWe report
- Cytokine release
- redox reporter
- aptamer species
- IFN
- electrode
- interferon gamma
- cell analysis
- micropatterned substrates
- square wave voltammetry
- PDMS microfluidic channels
- DNA hairpin molecule
- PEG
- target analyte
- glass regions
- mitogenic activation
- thiol groups
- Continuous Monitoring
- Cytokine Release
- SWV
- 90 T cells
- aptasensor
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Last time updated on 16/03/2018
This paper was published in The Francis Crick Institute.
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