Summary
Connected devices that monitor human biology in real-time represent the next frontier in biosensors. Monitoring hormones is of significant interest as hormones play critical roles in multiple physiological processes including stress adaptation, blood pressure control, reproductive rhythms, and body odor. However, the real-time monitoring of hormones is challenging from a biology, chemistry, and engineering perspective, insulin detection being the one notable success. This project proposes to design a novel wearable device to sense estradiol (through sweat), a hormone responsible for fertility issues and mood disorders in women. This project is highly innovative and ambitious since it combines microbial genetics and protein identification, new polymer and nanoparticles compositions, and a novel sensor design. The wearable device (i.e., bracelet) will contain an optical-to-electrical interface for recording the fluorescence output of a biosensor, based on estradiol sensitive transcription factor isolated from a microbial organism. The biosensor is composed of biopolymers (dendrimers and polypeptides nanoparticles) functionalized with fluorescent molecular beacons (MB) and a hormone-sensitive transcription factor. Without the hormone, the two fluorescent entities of the MB are linked by the protein and no signal is emitted because of fluorescence resonance energy transfer (FRET), while in the presence of estradiol, the MB separate and a fluorescent signal is emitted. The project will be conducted in two international prestigious laboratories in France and in the USA to give to the applicant the best interdisciplinary scientific environment, and ensure the ultimate success of this project. The applicant will be the main spokesperson and lead investigator of the project. This international exposure and this fellowship will provide the applicant a unique and multidisciplinary profile, while facilitating her future academic career as a researcher in France.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/749973 |
| Start date: | 15-03-2017 |
| End date: | 03-07-2020 |
| Total budget - Public funding: | 264 668,40 Euro - 264 668,00 Euro |
Cordis data
Original description
Connected devices that monitor human biology in real-time represent the next frontier in biosensors. Monitoring hormones is of significant interest as hormones play critical roles in multiple physiological processes including stress adaptation, blood pressure control, reproductive rhythms, and body odor. However, the real-time monitoring of hormones is challenging from a biology, chemistry, and engineering perspective, insulin detection being the one notable success. This project proposes to design a novel wearable device to sense estradiol (through sweat), a hormone responsible for fertility issues and mood disorders in women. This project is highly innovative and ambitious since it combines microbial genetics and protein identification, new polymer and nanoparticles compositions, and a novel sensor design. The wearable device (i.e., bracelet) will contain an optical-to-electrical interface for recording the fluorescence output of a biosensor, based on estradiol sensitive transcription factor isolated from a microbial organism. The biosensor is composed of biopolymers (dendrimers and polypeptides nanoparticles) functionalized with fluorescent molecular beacons (MB) and a hormone-sensitive transcription factor. Without the hormone, the two fluorescent entities of the MB are linked by the protein and no signal is emitted because of fluorescence resonance energy transfer (FRET), while in the presence of estradiol, the MB separate and a fluorescent signal is emitted. The project will be conducted in two international prestigious laboratories in France and in the USA to give to the applicant the best interdisciplinary scientific environment, and ensure the ultimate success of this project. The applicant will be the main spokesperson and lead investigator of the project. This international exposure and this fellowship will provide the applicant a unique and multidisciplinary profile, while facilitating her future academic career as a researcher in France.Status
CLOSEDCall topic
MSCA-IF-2016Update Date
28-04-2024
Images
No images available.
Geographical location(s)
Search
