USTC

From 2007.igem.org

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<h3>Statistics</h3>
<h3>Statistics</h3>
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'''<font color="#bb0000">229</font> Parts Sequence'''<br>
'''<font color="#bb0000">229</font> Parts Sequence'''<br>
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'''<font color="#bb0000">123</font> Parts submitted'''<br>
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'''<font color="#bb0000">123</font> Parts Submitted'''<br>
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'''<font color="#bb0000">~300</font> Strains Constructed'''
'''PCR'''<br>
'''PCR'''<br>
:~ 800 reactions<br>
:~ 800 reactions<br>
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'''Restriction digestion'''<br>
 
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:> 600 reactions<br>
 
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'''Transformation'''<br>
 
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:~ 300 times
 
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'''DNA sequencing'''<br>
'''DNA sequencing'''<br>
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:~ 130 times<br>
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:~ 130 reactions<br>
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'''Fluorescence measurement'''<br>
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'''Quantitative Measurement'''<br>
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:> 400 assays<br>
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:> 400 assays
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'''ONPG assay'''<br>
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:~ 100 reactions<br>
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<!--- <font color="#bb0000">'''Synthesis'''</font> --->
<!--- <font color="#bb0000">'''Synthesis'''</font> --->

Revision as of 19:59, 25 October 2007


USTC Logo.png

Today = new Date(); Jamboree = new Date("November 3, 2007"); msInADay = 1000 * 60 * 60 * 24; display = Math.floor((Jamboree.getTime() - Today.getTime())/msInADay); document.write(" " + display +" "); // </script></html>days left until the Jamboree! </font> -->


Our Project:
Extensible Logic Circuit in Bacteria

Artificial Bio-Logic Circuit is composed of "logic gates" and "wires" like Digital Electronic Circuits. Though we have been enjoying the advantages of ultra-large-scale electronic circuits in modern life, we still cannot implement a somewhat small-scale circuit in vivo with several levels of gates.

Our project is to provide a new method for building up a fully extensible bio-logic circuit in bacteria. A small fragment of DNA containing cis-acting elements, favored for its small scale and potential to implement complex logic computation in vivo, can be systematically built up and act as a gate. Meanwhile, artificial repressors with highly-specific DNA-recognition regions are able to transmit signals without mutual interference, just as enameled wires. In this way, a circuit can be constructed regardless of the number of logic gates and the layout of the wires.

A demonstration system has also been assembled to show the practicality of this method. Just like Digital Electronic Circuits in early days, it is simple and ugly. Nevertheless, how will it appear in future?

For detailed description, please click each hyperlink below.

DSCN1243.png

From left to right
Back row: Zhao Yun, Liu ZQ, Ma XY
Front row: Ma Rui, Su XF, Ding Bo, Zhan Jian


Project


Introduction


Core Logic Components:

Logic-Gate Promoters


Wires without Interference:

Repressor Evolution on Plates

Repressor Evolution in Silico


Peripheral Devices:

Inputs and Outputs


Extensible System:

A Demonstration

Further More


Members


4 Graduates:
Zhan Jian
Ma Rui
Ding Bo
Ma Xiaoyu


3 Undergraduates:
Su Xiaofeng
Liu Ziqing
Zhao Yun


3 Faculty Advisors:
Prof. HY Liu
Prof. JR Wu
Prof. ZH Hou

Statistics


229 Parts Sequence
123 Parts Submitted
~300 Strains Constructed


PCR

~ 800 reactions

DNA sequencing

~ 130 reactions

Quantitative Measurement

> 400 assays


Events

Resources

Modeling Utilities

Protocols

Sponsors

Service Providers

Gallery

Team Photos

Laboratory

[http://sg.ustc.edu.cn/mediawiki/index.php/IGEM_USTC_2007:USTCPhotos USTC Photos]

[http://sg.ustc.edu.cn/mediawiki/index.php/IGEM_USTC_2007:HuangshanPhotos Huangshan Mountain]

Links

[http://partsregistry.org/cgi/partsdb/pgroup.cgi?pgroup=iGEM2007&group=USTC Parts Made by USTC iGEM 2007]

[http://partsregistry.org iGEM Standard Parts' Catalog ]

IGEM2007 Team List

[http://www.ustc.edu.cn Univ. of Sci. and Tech. of China ]