Difference between revisions of "Team:Vilnius-Lithuania/Design"

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                             In pursuit to substantially reduce the manual effort in performing coating procedure, we have designed a software called LipoVision. LipoVision software reduces human labor down to the bare minimum and optimizes the coating procedure entirely. It uses an open standard computer library OpenCV at its’ core, detects the events at the interphase and controls the pumps for the accurate infusion rates according to the situation. The LipoVision software is based on Go and available on all operating systems and is accessible to any custom microfluidic experiment. Eventually, we are planning to apply this software for the fully automated synthesis of the liposomes. To learn more about LipoVision, refer to <a href="https://2018.igem.org/Team:Vilnius-Lithuania/Software">Software</a>.
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                             In pursuit to substantially reduce the manual effort in performing coating procedure, we have designed a software called LipoVision. LipoVision software reduces human labor down to the bare minimum and optimizes the coating procedure entirely. The LipoVision software is based on the open standard computer library OpenCV and is written in Go. It is available on all operating systems and made to be accessible to any custom microfluidic experiment. Eventually, we are planning to apply this software for the fully automated synthesis of the liposomes. To learn more about LipoVision, refer to <a href="https://2018.igem.org/Team:Vilnius-Lithuania/Software">Software</a>.
 
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Revision as of 01:08, 18 October 2018

Design and Results

Results

Cell-free, synthetic biology systems open new horizons in engineering biomolecular systems which feature complex, cell-like behaviors in the absence of living entities. Having no superior genetic control, user-controllable mechanisms to regulate gene expression are necessary to successfully operate these systems. We have created a small collection of synthetic RNA thermometers that enable temperature-dependent translation of membrane proteins, work well in cells and display great potential to be transferred to any in vitro protein synthesis system.

invert