Difference between revisions of "Team:Lethbridge"
Keithaiken (Talk | contribs) |
Keithaiken (Talk | contribs) |
||
| Line 26: | Line 26: | ||
.segmentContainer p.segment2 {font-size: calc(22px + 0.5vw) !important; line-height: calc(1.1em + 0.5vw) !important;} | .segmentContainer p.segment2 {font-size: calc(22px + 0.5vw) !important; line-height: calc(1.1em + 0.5vw) !important;} | ||
.segmentContainer .imageDiv img {display: block; height: auto; max-width: 100%;} | .segmentContainer .imageDiv img {display: block; height: auto; max-width: 100%;} | ||
| − | + | .pageLink a:link, pageLink a:visited {color: cyan !important; text-decoration: underline;} | |
p {text-align: center !important;} | p {text-align: center !important;} | ||
Revision as of 00:58, 29 October 2017
Cell-free Synthetic Biology
for the Masses
Why Cell-free?
Cell-free systems include all the necessary biomachinery to produce proteins outside of a living cell
Due to their inherent safety and simplicity, cell-free systems provide a powerful tool to synthetic biologists for engineering novel systems without the constraints of cellular life
Motivation
A lack of standardization, simplification and flexibility has limited the application of cell-free systems, including its use within the education system and Do-It-Yourself (DIY) community
Design
Lowering the barrier to synthetic biology, our project aims to create a STANDARD, SAFE, MODULAR and USER-FRIENDLY cell-free system
Our System
A collection of standard parts for essential TX-TL components
Streamline and novel purification techniques
A tool to create an orthogonal system
A tool to detect potentially harmful encrypted sequences
A safe synthetic biology teaching tool
Simplified protocols
Curriculum aligned lesson plans
