Difference between revisions of "Digital Genetic Circuits (Microbes as Machines)"
From SynBioCyc
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#Farzadfard2015 pmid=25395541 | #Farzadfard2015 pmid=25395541 | ||
// Scalable system for recording "cellular memories" in a genome. | // Scalable system for recording "cellular memories" in a genome. | ||
| + | #Green2014 pmid=25417166 | ||
| + | // Scalable construction of complex genetic circuits with wide dynamic ranges. | ||
</biblio> | </biblio> | ||
Revision as of 20:06, 22 February 2015
Contents |
Download Pre-Discussion Questions (PDF)
These gates are perhaps the farthest away from any natural counterpart and are thus likely to occupy synthetic and systems biologists in the years to come.[2].
Required Reading/Viewing
Error fetching PMID 23539178:
Error fetching PMID 23641100:
Error fetching PMID 23641100:
- Error fetching PMID 23539178:
Describes using recombinases to implement digital logic in bacteria. - Error fetching PMID 23641100:
Accompanying perspective article.
Assigned Papers
Error fetching PMID 25395541:
Error fetching PMID 25417166:
Error fetching PMID 25417166:
- Error fetching PMID 25395541:
Scalable system for recording "cellular memories" in a genome. - Error fetching PMID 25417166:
Scalable construction of complex genetic circuits with wide dynamic ranges.
Additional Resources
- Transcriptors & Boolean Integrase Logic (BIL) gates, explained (YouTube)
Movie describing the results of the Bonnet2013 paper
