Team:UCL London

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== Welcome to the Stress Busters Homepage ==
== Welcome to the Stress Busters Homepage ==
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[[Image:Ucl blue logo.jpg]]
 
Welcome to the UCL_London team 2009!  
Welcome to the UCL_London team 2009!  
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Our project '''“Stress Light”''' will produce a series of synthetic biosensor devises, which can improve on the traditional sensors in bio-processing; by using green fluorescent protein (GFP), yellow fluorescent protein (YFP), cyan fluorescent protein (CFP) and red fluorescent protein (RFP) expression as indicators of different stresses for ''e.coli'' bacteria during cultivation. Our product and system is called '''"The Traffic Light Stress Sensor”'''. It is constructed to express fluorescent proteins of different colors in response to different stimuli which are inhibiting growth or harming production. [[Team:UCL London/Project/Description|Description]] We aim to build a sensor that can detect shear stress and low oxygen levels. We believe these two stresses are critical in a bioprocessing environment. We are applying ''e.coli’s'' native or modified promoters for DegP, Spy and NarK in order to induce transcription. Ideally the cells responses to stressed conditions should be sufficiently accurate, reliable and rapid for the stresses to be detected and mitigated in a timely manner.[[Team:UCL London/Project/Objectives|Objective]]
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Our project “Stress Light” aims to produce a series of biosensor devises which can improve the traditional mechanical measurements in bio-processing by using the different fluorescent proteins as indicators of different stresses for bacteria during the bio-processing. Our product and system is called “the traffic-light stress sensor” and it is meant to send out fluorescent proteins of different colors in response to different growth limiting or for the production harmful  stresses. Description(link)   
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Besides making bioprocesses easier to monitor, analyse and hence optimize, we believe that well functioning biobricks responding accurately to processing conditions (e.g. oxygen levels) can have a broad set of general applications; e.g. to make more efficient induction systems or be used to develop self inducible or increasingly self regulated bioprocesses.[[Team:UCL London/Project/Vision|Vision]]
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Ideally this response to should be fast enough in order for the stressful conditions to be detected and mitigated as quickly as possible. Objective(link)
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Besides making bioprocesses easier to monitor, analyse and hence also to optimize we believe that well functioning biobricks responding accurately to processing conditions (e.g. oxygen levels) can have a very broad application in general; e.g. to make induction of large scale bioprocesses more cost effective or even be used to make self inducible or self regulated bioprocesses. Vision(link)
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== The Team ==
== The Team ==
This is UCL's first time entering into this competition.  
This is UCL's first time entering into this competition.  
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We are the "Stress Busters" made up of four magnificent students, and 3 super supervisors!
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We are the [[Team:UCL_London/Team|"Stress Busters"]] made up of three magnificent students, and 3 super supervisors!
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<p>Ea sed quis ponderum periculis. At causae quaerendum pro, mei ad elit aliquid feugait, essent iuvaret eu sit. Eius inimicus torquatos in vix, populo nemore voluptatum ne mel. Diceret menandri imperdiet ei cum, partem quaestio eum eu. No choro ridens cum, vel an summo dignissim signiferumque, putant everti dissentias te sit.
 
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<p>Eu nec elit persecuti, est corrumpit intellegat repudiandae eu. Per id sonet elaboraret. Eu nec quas docendi explicari. Nec ad cetero takimata invenire. No audire torquatos sententiae sed. Eos ne dicant gloriatur.signiferumque, putant everti dissentias te sit.
 
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Lorem ipsum vel ut puto saepe persius, pro mandamus interpretaris cu. Assum officiis te ius. Ad nam inani invenire sapientem, no duo facilis fuisset fierent. Id nam detracto legendos, his alii sadipscing te. Tale debet ad ius, te nibh justo officiis has.</p>
 
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<p>Eu nec elit persecuti, est corrumpit intellegat repudiandae eu. Per id sonet elaboraret. Eu nec quas docendi explicari. Nec ad cetero takimata invenire. No audire torquatos sententiae sed. Eos ne dicant gloriatur.</p>
 
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<!--- The Mission, Experiments --->
<!--- The Mission, Experiments --->
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== Project ==
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== Abstract ==
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The “Stress light” project was inspired by the quandary of having a deeper understanding on the internal environment and feelings of cells. Therefore, the Stress Busters came up with a novel biosensor that detects specific stresses at which the cells are under.
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<p>Ea sed quis ponderum periculis. At causae quaerendum pro, mei ad elit aliquid feugait, essent iuvaret eu sit. Eius inimicus torquatos in vix, populo nemore voluptatum ne mel. Diceret menandri imperdiet ei cum, partem quaestio eum eu. No choro ridens cum, vel an summo dignissim signiferumque, putant everti dissentias te sit.</p>
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DegP and Spy for instance was the promoter used to detect any mis-folded protein produced by the cells. Nark and mNarK are other promoters used in response to oxygen stresses.
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Overall these four to fives months our team has been working earnestly to try to identify particular stresses, ligate the parts and carry out various experiments to validate and verify our device as a working biosensor. 
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<p>Lorem ipsum vel ut puto saepe persius, pro mandamus interpretaris cu. Assum officiis te ius. Ad nam inani invenire sapientem, no duo facilis fuisset fierent. Id nam detracto legendos, his alii sadipscing te. Tale debet ad ius, te nibh justo officiis has.</p>
 
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<p>Eu nec elit persecuti, est corrumpit intellegat repudiandae eu. Per id sonet elaboraret. Eu nec quas docendi explicari. Nec ad cetero takimata invenire. No audire torquatos sententiae sed. Eos ne dicant gloriatur.</p>
 
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{{Template:UCL_London_footer}}
{{Template:UCL_London_footer}}

Latest revision as of 02:22, 22 October 2009

Welcome to the Stress Busters Homepage

Welcome to the UCL_London team 2009!

Our project “Stress Light” will produce a series of synthetic biosensor devises, which can improve on the traditional sensors in bio-processing; by using green fluorescent protein (GFP), yellow fluorescent protein (YFP), cyan fluorescent protein (CFP) and red fluorescent protein (RFP) expression as indicators of different stresses for e.coli bacteria during cultivation. Our product and system is called "The Traffic Light Stress Sensor”. It is constructed to express fluorescent proteins of different colors in response to different stimuli which are inhibiting growth or harming production. Description We aim to build a sensor that can detect shear stress and low oxygen levels. We believe these two stresses are critical in a bioprocessing environment. We are applying e.coli’s native or modified promoters for DegP, Spy and NarK in order to induce transcription. Ideally the cells responses to stressed conditions should be sufficiently accurate, reliable and rapid for the stresses to be detected and mitigated in a timely manner.Objective Besides making bioprocesses easier to monitor, analyse and hence optimize, we believe that well functioning biobricks responding accurately to processing conditions (e.g. oxygen levels) can have a broad set of general applications; e.g. to make more efficient induction systems or be used to develop self inducible or increasingly self regulated bioprocesses.Vision

The Team

This is UCL's first time entering into this competition. We are the "Stress Busters" made up of three magnificent students, and 3 super supervisors!



Project

The “Stress light” project was inspired by the quandary of having a deeper understanding on the internal environment and feelings of cells. Therefore, the Stress Busters came up with a novel biosensor that detects specific stresses at which the cells are under.

DegP and Spy for instance was the promoter used to detect any mis-folded protein produced by the cells. Nark and mNarK are other promoters used in response to oxygen stresses.

Overall these four to fives months our team has been working earnestly to try to identify particular stresses, ligate the parts and carry out various experiments to validate and verify our device as a working biosensor.



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