COLLABORATIONS
NEPTUNE Collaborative Findings
Given that Neptune was built to provide an accessible, affordable, and convenient solution for designing, manufacturing, and operating microfluidic systems, it was only natural that we would test our toolchain by designing microfluidics for other iGEM wetlab teams. We were able to collaborate with both the MIT iGEM team and the Northeastern iGEM team. Through these exchanges, we were able to test the Neptune workflow while providing a wetlab team with microfluidics to test their biological systems.
Building (Title of Chip)
SEPT - OCT 2016 | A collaboration with the MIT 2016 iGEM Wetlab Team
A description of our work with MIT
Designing (Title of Chip)
JUL - SEPT 2016 | A collaboration with the Northeastern 2016 iGEM Wetlab Team
We designed a microfluidic device for Northeastern University's iGEM team to help characterize their starvation-induced genetic part, by flowing cells through a set of cell traps placed after a gradient generator, then flowing two variable amounts of nutrients through the inputs of the gradient generator, causing a variable amount of nutrients to hit each cell trap, and cause a variable expression level of the starvation-linked fluorescence. Unfortunately, due to difficulties on both sides, the device and the cells to put through it were never realized. The preliminary sketches and designs are shown here, however.
Open Source Materials and Synthetic Biology
Open source materials encourage a cooperative and connected community in any field of research. It allows individuals and labs to easily share their ideas for others to build off of and can inspire even greater creations. So we teamed up with the BU 2016 iGEM Wetlab Team to investigate the current place of open source materials in Synthetic biology and how, moving forward, open source materials could impact the direction of the field. We recorded our findings biweekly through posts in a collaborative blog entitled "Who Owns What".