Microfluidic sensing chip: Microfluidic device for long-term maintenance of biosensing cells
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Login for More InformationMicrofluidic chip capable of housing colonies of biosensing yeast cells long-term for detection of human endocrine disruptors
Project Overview
This project will design a microfluidic device for maintaining yeast cells at constant density and in a single plane (i.e. monolayer). These yeast cells contain sensing proteins that allow them to detect human endocrine disruptors (HEDCs) and express fluorescent proteins in response to the presence of these HEDCs. The device must allow for replenishing these yeast biosensors with appropriate nutrients and delivering samples to be tested for HEDCs to the yeast. Any yeast growth within the device must be handled so that the yeast stays at a constant density and number. Finally, an ideal device would contain multiple compartments for yeast with different HEDCs sensors.
Team Picture
Contact Information
Team Members
- Tony Tu - Team Leader
- Amy Cao - Communicator
- Margo Amatuzio - Co-BSAC
- Samuel Neuman - Co-BSAC
- Bella Boeckenstedt - BWIG
- Ren Babu - BPAG
Advisor and Client
- Dr. Melissa Kinney - Advisor
- Prof. Megan McClean - Client
- Prof. Bhuvana Krishnaswamy - Alternate Contact
Related Projects
- Spring 2023: Microfluidic sensing chip: Microfluidic device for long-term maintenance of biosensing cells
- Fall 2022: Microfluidic sensing chip: Microfluidic device for long-term maintenance of biosensing cells
- Spring 2022: Microfluidic sensing chip: Microfluidic device for long-term maintenance of biosensing cells
- Fall 2021: Microfluidic sensing chip: Microfluidic device for long-term maintenance of biosensing cells