Difference between revisions of "Team:Heidelberg/Description"

 
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               <div id="deeprotein" class="icon-box"><a href="https://2017.igem.org/Team:Heidelberg/Software/DeeProtein"><img src="https://static.igem.org/mediawiki/2017/4/43/T--Heidelberg--2017_DeeProteinIcon.svg" width="100%" height="auto"></a></div>
 
               <div id="deeprotein" class="icon-box"><a href="https://2017.igem.org/Team:Heidelberg/Software/DeeProtein"><img src="https://static.igem.org/mediawiki/2017/4/43/T--Heidelberg--2017_DeeProteinIcon.svg" width="100%" height="auto"></a></div>
 
               <div id="safetynet" class="icon-box"><a href="https://2017.igem.org/Team:Heidelberg/Software/SafetyNet"><img src="https://static.igem.org/mediawiki/2017/c/cc/T--Heidelberg--2017_SafetyNetIcon.svg" width="100%" height="auto"></a></div>
 
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                 <div id="carbonsilicon" class="icon-box"><a href="https://2017.igem.org/Team:Heidelberg/Organosilicones"><img src="https://static.igem.org/mediawiki/2017/d/d5/T--Heidelberg--2017_CarbonSiliconIcon.svg" width="100%" height="auto"></a></div>
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<div class="content" style="color: white !important; font-size: 50px !important; line-height: 50px !important;text-align: center !important; font-family: 'Josefin Sans', sans-serif !important; padding-bottom: 30px;">Project Abstract</div>
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            Darwinian evolution is an enormously powerful concept that drove biology towards astonishing complexity and beauty. This year, the iGEM team Heidelberg aims at harnessing this power to <a href="https://2017.igem.org/Team:Heidelberg/Design" style="color: #fbb74b !important">accelerate</a> the engineering of biomolecules for human benefit.
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<br><br>
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To this end we build upon the <a href="https://2017.igem.org/Team:Heidelberg/Pace" style="color: #fbb74b !important">PACE</a> (phage-assisted continuous evolution) method, which couples the survival of quickly mutating phages encoding a gene of interest to directed selection within E. coli host. We present a standardized, comprehensive <a href="https://2017.igem.org/Team:Heidelberg/Toolbox" style="color: #fbb74b !important">evolution toolbox</a> that highly simplifies the complex PACE method and widely expands its utility towards various new application areas, including the biological production of <a href="https://2017.igem.org/Team:Heidelberg/Organosilicons" style="color: #fbb74b !important">organosilicons</a>. <br>A central component of our <a href="https://2017.igem.org/Team:Heidelberg/Toolbox" style="color: #fbb74b !important">toolbox</a> is an innovative workflow for directed in vivo evolution of novel enzymes, which we validated by redirecting the activity of a <a href="https://2017.igem.org/Team:Heidelberg/Cytochrome_Engineering" style="color: #fbb74b !important">promiscuous cytochrome</a> towards a naturally unfavored reaction product.
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<br> <br>
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Complementary, to simplify the generation desired functionalities de novo, we created <a href="https://2017.igem.org/Team:Heidelberg/Software" style="color: #fbb74b !important">AiGEM</a>, our Artificial Intelligence for Genetic Evolution Mimicking software suite. The heart of our software is <a href="https://2017.igem.org/Team:Heidelberg/Software/DeeProtein" style="color: #fbb74b !important">DeeProtein</a>, a deep neuronal network trained on ~10 million protein sequences and able to infer sequence-function relationships from raw sequence data with high accuracy. By interfacing DeeProtein with our genetic algorithm <a href="https://2017.igem.org/Team:Heidelberg/Software/GAIA" style="color: #fbb74b !important">GAIA</a>, we – for the first time - established a fully closed, in silico evolution cycle driven by an intelligent network. We used <a href="https://2017.igem.org/Team:Heidelberg/Software" style="color: #fbb74b !important">AiGEM</a> to successfully modulate the catalytic efficiency of <a href="https://2017.igem.org/Team:Heidelberg/Validation#lac" style="color: #fbb74b !important">beta-lactamases</a>, thereby even producing variants which highly outperform the wild type enzyme. <br>To demonstrate AiGEM’s ability for generating functionality de novo, we created a novel, highly efficient <a href="https://2017.igem.org/Team:Heidelberg/Validation#gusgal" style="color: #fbb74b !important">beta-galactosidase</a> purely by in silico evolution of a beta-glucuronidase parental sequence. <br><br>Finally, as part of our <a href="https://2017.igem.org/Team:Heidelberg/Human_Practices" style="color: #fbb74b !important">integrated human practices</a> project, we implemented <a href="https://2017.igem.org/Team:Heidelberg/Software/SafetyNet" style="color: #fbb74b !important">SafetyNet</a>, a DeeProtein-based web application safeguarding directed evolution experiments.
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<div style="font-size: 25px !important; font-weight: 700 !important">Taken together, we provide a new foundational advance by introducing an innovative in vivo and in silico evolution interface as novel engineering paradigm to Synthetic Biology!</div>
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Latest revision as of 02:41, 2 November 2017

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Project Abstract
Darwinian evolution is an enormously powerful concept that drove biology towards astonishing complexity and beauty. This year, the iGEM team Heidelberg aims at harnessing this power to accelerate the engineering of biomolecules for human benefit.

To this end we build upon the PACE (phage-assisted continuous evolution) method, which couples the survival of quickly mutating phages encoding a gene of interest to directed selection within E. coli host. We present a standardized, comprehensive evolution toolbox that highly simplifies the complex PACE method and widely expands its utility towards various new application areas, including the biological production of organosilicons.
A central component of our toolbox is an innovative workflow for directed in vivo evolution of novel enzymes, which we validated by redirecting the activity of a promiscuous cytochrome towards a naturally unfavored reaction product.

Complementary, to simplify the generation desired functionalities de novo, we created AiGEM, our Artificial Intelligence for Genetic Evolution Mimicking software suite. The heart of our software is DeeProtein, a deep neuronal network trained on ~10 million protein sequences and able to infer sequence-function relationships from raw sequence data with high accuracy. By interfacing DeeProtein with our genetic algorithm GAIA, we – for the first time - established a fully closed, in silico evolution cycle driven by an intelligent network. We used AiGEM to successfully modulate the catalytic efficiency of beta-lactamases, thereby even producing variants which highly outperform the wild type enzyme.
To demonstrate AiGEM’s ability for generating functionality de novo, we created a novel, highly efficient beta-galactosidase purely by in silico evolution of a beta-glucuronidase parental sequence.

Finally, as part of our integrated human practices project, we implemented SafetyNet, a DeeProtein-based web application safeguarding directed evolution experiments.


Taken together, we provide a new foundational advance by introducing an innovative in vivo and in silico evolution interface as novel engineering paradigm to Synthetic Biology!