"
Team:Shenzhen/Result
From 2012.igem.org
(Difference between revisions)
| Line 13: | Line 13: | ||
{{:Team:Shenzhen/Temp/left_result.htm}} | {{:Team:Shenzhen/Temp/left_result.htm}} | ||
<div id="bodymain"> | <div id="bodymain"> | ||
| - | <div id="media">{{:Team:Shenzhen/Temp/ | + | <div id="media">{{:Team:Shenzhen/Temp/media_result_summary.htm}}</div> |
<div id="intro"> | <div id="intro"> | ||
| Line 26: | Line 26: | ||
<p>Project YAO could been seen as pioneering work in iGEM and synthetic biology. </p> | <p>Project YAO could been seen as pioneering work in iGEM and synthetic biology. </p> | ||
<p>1. When we added some new categories into PartsRegistry, organelles as mitochondria, have opened their access to iGEMers and synthetic biologists. </p> | <p>1. When we added some new categories into PartsRegistry, organelles as mitochondria, have opened their access to iGEMers and synthetic biologists. </p> | ||
| - | <p>2 | + | <p>2. We have taken the initial success, on sending signals in or out organelles, and engineering transcriptional regulation in organelle for the first time. </p> |
<p>3. We have been trying to engineer, to measure and to theoretically model a series of signal peptides, related with mitochondria and chloroplasts. </p> | <p>3. We have been trying to engineer, to measure and to theoretically model a series of signal peptides, related with mitochondria and chloroplasts. </p> | ||
<p>4. We have carried out lots of mathematical simulations, illustrating an exciting blueprint of YAO in bio-synthesis. </p> | <p>4. We have carried out lots of mathematical simulations, illustrating an exciting blueprint of YAO in bio-synthesis. </p> | ||
Revision as of 10:00, 23 September 2012
-
BioBricks
- Summary
- YAO.Genome
- YAO.Channel
- YAO.Sensor
- YAO.Suicider
-
Notebook
- Team History
- YAO.Genome
- YAO.Channel
- YAO.Sensor
- YAO.Suicider
- YAO.Factory
-
Practices
Highlights
Project YAO could been seen as pioneering work in iGEM and synthetic biology.
1. When we added some new categories into PartsRegistry, organelles as mitochondria, have opened their access to iGEMers and synthetic biologists.
2. We have taken the initial success, on sending signals in or out organelles, and engineering transcriptional regulation in organelle for the first time.
3. We have been trying to engineer, to measure and to theoretically model a series of signal peptides, related with mitochondria and chloroplasts.
4. We have carried out lots of mathematical simulations, illustrating an exciting blueprint of YAO in bio-synthesis.
