Line 182: | Line 182: | ||
animation-duration: 3s; | animation-duration: 3s; | ||
} | } | ||
+ | .w3-display-container{position:relative} | ||
@-webkit-keyframes fade { | @-webkit-keyframes fade { | ||
Line 439: | Line 440: | ||
<div class="right2"> | <div class="right2"> | ||
− | <div class="slideshow-container" style="text-align:center"> | + | <div class="slideshow-container w3-display-container" style="text-align:center"> |
<img class="mySlides fade" style="border-radius:10px; width:100%;" src = "https://static.igem.org/mediawiki/2019/9/9b/T--TUDelft--fold3.png" alt="Fold Scope Event" > | <img class="mySlides fade" style="border-radius:10px; width:100%;" src = "https://static.igem.org/mediawiki/2019/9/9b/T--TUDelft--fold3.png" alt="Fold Scope Event" > |
Revision as of 23:58, 13 October 2019
Engineering organism specific parts and utilizing existing parts across different species is extremely laborious and expensive
which restricts the scope of synthetic biology to a small subset of the bacterial cosmos.
![Parts road](https://static.igem.org/mediawiki/2019/8/84/T--TUDelft--steps_parts.png)
![Sci-Phi 29](https://static.igem.org/mediawiki/2019/e/e7/T--TUDELFT--logonavbar-white.png)
In our project, we developed the Sci-Phi 29 tool that aims to expand the repertoire of bacterial species and broaden the range of substrates and environmental conditions which is currently used in synthetic biology.
Read More
Orthogonal Replication
Predictable Expression
Cross Species