Difference between revisions of "Team:Peking/Project overview"

 
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            <title>Team</title>
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            <meta name="description" content="Wiki of Peking iGEM 2018" />
        <meta name="author" content="Li Jiamian & Wang Yuqing"/>
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                                     <li><a href="https://2018.igem.org/Team:Peking/Design" class="barfont1">Design</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/Design" class="barfont1">Design</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/Demonstrate" class="barfont1">Demonstration</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/Demonstrate" class="barfont1">Demonstration</a></li>
                                     <li><a href="https://2018.igem.org/Team:Peking/Prospective" class="barfont1">Prospective</a></li>
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                                     <li><a href="https://2018.igem.org/Team:Peking/Project_Perspective" class="barfont1">Perspective</a></li>
 
                                 </ul>
 
                                 </ul>
 
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                             <li class="dropdown menu-3"><a class="dropdown-toggle" data-toggle="dropdown" href="#" >Modeling</a>
 
                             <li class="dropdown menu-3"><a class="dropdown-toggle" data-toggle="dropdown" href="#" >Modeling</a>
 
                                 <ul class="dropdown-menu">
 
                                 <ul class="dropdown-menu">
                                     <li><a href="https://2018.igem.org/Team:Peking/Modeling_overview">Overview</a></li>
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                                     <li><a href="https://2018.igem.org/Team:Peking/Model">Overview</a></li>
 
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                                     <li><a href="https://2018.igem.org/Team:Peking/SPOT_Formation" class="barfont1">SPOT Formation</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/SPOT_Formation" class="barfont1">SPOT Formation</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/Application" class="barfont1">Application</a></li>
 
                                     <li><a href="https://2018.igem.org/Team:Peking/Application" class="barfont1">Application</a></li>
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                             <li class="menu-4"><a class="colapse-menu1" href="https://2018.igem.org/Team:Peking/Software">Software</a>
 
                             <li class="menu-4"><a class="colapse-menu1" href="https://2018.igem.org/Team:Peking/Software">Software</a>
 
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                             </li>
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                        </div>
 
  
                                <li class="dropdown menu-6"><a class="dropdown-toggle" data-toggle="dropdown" href="#">Human Practices</a>
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                            <li class="menu-6"><a class="colapse-menu1" href="https://2018.igem.org/Team:Peking/Human_Practices">Human Practices</a>
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                            </li>
                                        <li><a href="https://2018.igem.org/Team:Peking/Human_Practices" class="barfont1">Overview</a></li>
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                                 <li class="dropdown menu-7"><a class="dropdown-toggle" data-toggle="dropdown" href="#" >Achievement</a>
                                        <li><a href="https://2018.igem.org/Team:Peking/Statistics" class="barfont1">Statistics</a></li>
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                                        <li><a href="https://2018.igem.org/Team:Peking/Public_Engagement" class="barfont1">Public Engagement</a></li>
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                                        <li><a href="https://2018.igem.org/Team:Peking/Other" class="barfont1">Other</a></li>
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                                 <li class="dropdown menu-7"><a class="dropdown-toggle" data-toggle="dropdown" href="#" >Achevement</a>
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                                         <li><a href="https://2018.igem.org/Team:Peking/Judging_Form" class="barfont1">Judging Form</a></li>
 
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                                         <li><a href="https://2018.igem.org/Team:Peking/Collaborations" class="barfont1">Collaborations</a></li>
 
                                         <li><a href="https://2018.igem.org/Team:Peking/Collaborations" class="barfont1">Collaborations</a></li>
 
                                         <li><a href="https://2018.igem.org/Team:Peking/Safety" class="barfont1">Safety</a></li>
 
                                         <li><a href="https://2018.igem.org/Team:Peking/Safety" class="barfont1">Safety</a></li>
                                    </ul>
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                                                                            <li><a href="https://2018.igem.org/Team:Peking/Acknowledgement" class="barfont1">Acknowledgement</a></li></ul>
 
                                 </li>
 
                                 </li>
 
                                 </div>
 
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         </div>
 
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                             <div id="page-wrap">
 
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                                     <h4><a href="javascript:void(0);" onclick="naver('A')">Descripition</a></h4>
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                                     <h4><a href="https://2018.igem.org/Team:Peking/Project_Overview">Description</a></h4>
                                      
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                                    <h4><a href="https://2018.igem.org/Team:Peking/Design">Design</a></h4>
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                                     <h4><a href="https://2018.igem.org/Team:Peking/Demonstration">Demonstration</a></h4>
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                                    <h4><a href="https://2018.igem.org/Team:Peking/Perspective">Perspective</a></h4>
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                                     <p>Ever since the beginning of life, compartmentalization has been playing a crucial role in biological systems. The famous Miller-Urey experiment shows that inorganic molecules can be transformed into organic substances under extreme conditions, catalyzed by, for example, lightnings. However, homogeneously distributed organic matter is not enough for life to emerge. It is almost impossible that all conditions are appropriate for life in the entire primordial soup, that is where the compartments come in.
 
                                     <p>Ever since the beginning of life, compartmentalization has been playing a crucial role in biological systems. The famous Miller-Urey experiment shows that inorganic molecules can be transformed into organic substances under extreme conditions, catalyzed by, for example, lightnings. However, homogeneously distributed organic matter is not enough for life to emerge. It is almost impossible that all conditions are appropriate for life in the entire primordial soup, that is where the compartments come in.
 
<br /><br />
 
<br /><br />
Only after coacervate droplets form and organic molecules condense inside, can a completely different environment be attained within, thus enabling the emergence of bio-macromolecules, or in other words, making life possible.In higher cells, compartmentalization is mainly achieved by different organelles, i.e. mitochondria, chloroplasts, lysosomes, etc. They play three major roles: A, B, C.
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Only after coacervate droplets form and organic molecules condense inside, can a completely different environment be attained within, thus enabling the emergence of bio-macromolecules, or in other words, making life possible.In higher cells, compartmentalization is mainly achieved by different organelles, i.e. mitochondria, chloroplasts, lysosomes, etc. They play three major roles: isolation, special environment, localization.
 
<br /><br />
 
<br /><br />
 
Intuitively, for an organelle to remain a stable compartment, it must acquire a material boundary, or more precisely, a membrane. Membrane-bound organelles are indeed common and stable, but from the perspective of synthesis, they are too complicated for primordial conditions. However, there are also non-membrane-bound organelles, for instance, stress granules, P granules and nucleoli. More importantly, their formation is guided by simple physical principles. Membrane-less organelles and phase separation. Next came the question how can we synthase membrane-less organelles.
 
Intuitively, for an organelle to remain a stable compartment, it must acquire a material boundary, or more precisely, a membrane. Membrane-bound organelles are indeed common and stable, but from the perspective of synthesis, they are too complicated for primordial conditions. However, there are also non-membrane-bound organelles, for instance, stress granules, P granules and nucleoli. More importantly, their formation is guided by simple physical principles. Membrane-less organelles and phase separation. Next came the question how can we synthase membrane-less organelles.
 
<br /><br />
 
<br /><br />
 
According to physical chemistry, the process where materials self-assemble into organelles is described as ‘phase separation’, which is the conversion of a single-phase system into a multiphase system, much like how oil and water will spontaneously separate from each other. In general, materials flow to regions with low chemical potential instead of low concentration(Figure. 1). Finally, the components are no longer distributed uniformly but locally form granules, which are organelles in the cell(Figure. 2).
 
According to physical chemistry, the process where materials self-assemble into organelles is described as ‘phase separation’, which is the conversion of a single-phase system into a multiphase system, much like how oil and water will spontaneously separate from each other. In general, materials flow to regions with low chemical potential instead of low concentration(Figure. 1). Finally, the components are no longer distributed uniformly but locally form granules, which are organelles in the cell(Figure. 2).
<div align="center"><br /><br /><img src="https://static.igem.org/mediawiki/2018/8/80/T--Peking--project_overview2.png", widht="300 px" "height="300 px">
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<div align="center"><br /><br /><img src="https://static.igem.org/mediawiki/2018/8/80/T--Peking--project_overview2.png", width="300 px" "height="300 px"><br/>
<p text-align="center"> Figure. 2
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<p style="text-align:center;"> Figure. 1: Materials flow to regions with low chemical potential<sup>[1]</sup>. </p>
<img src="https://static.igem.org/mediawiki/2018/3/3e/T--Peking--project_overview3.gif"></div><br /><br />
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<img src="https://static.igem.org/mediawiki/2018/3/3e/T--Peking--project_overview3.gif" width="300px" "height="300 px"></div>
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<p style="text-align:center;">Figure. 2: The components are no longer distributed uniformly but locally form granules</p>
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<br/>
 +
<p style="style="text-align:justify; text-justify:inter-ideograph;">
 
Therefore, the main challenge in the synthesis of an organelle is to accomplish phase separation in a cell. We took our inspiration from existing living systems. For example, stress granules and P bodies are formed by the interaction between mRNA and proteins. RNA and proteins play a significant part in the phase separation in cells. IDR (Intrinsic Disordered Regions) are an indicator of large-scale phase separation in the cell. IDR interact with each other through van der Waals forces, electrostatic and hydrophobic effects between amino acid residues, while RNA molecules combine with proteins through their bases and ribose-phosphate chain. Previous work attempted to reproduce natural phase separation by connecting interaction modules such as SUMO/SIM and SH3/PRM to construct granules in the cell(Figure. 3).
 
Therefore, the main challenge in the synthesis of an organelle is to accomplish phase separation in a cell. We took our inspiration from existing living systems. For example, stress granules and P bodies are formed by the interaction between mRNA and proteins. RNA and proteins play a significant part in the phase separation in cells. IDR (Intrinsic Disordered Regions) are an indicator of large-scale phase separation in the cell. IDR interact with each other through van der Waals forces, electrostatic and hydrophobic effects between amino acid residues, while RNA molecules combine with proteins through their bases and ribose-phosphate chain. Previous work attempted to reproduce natural phase separation by connecting interaction modules such as SUMO/SIM and SH3/PRM to construct granules in the cell(Figure. 3).
<br /><br /><img src="https://static.igem.org/mediawiki/2018/8/8b/T--Peking--project_overview4.png"><br /><br />
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<br /><br />
Summarizing these examples and according to physical principles, interaction between modules and multivalency are essential for phase separation. In general, interaction binds the parts together and multivalency results in larger assemblies, which are two guiding principles of our design(Figure. 4).<br /><br />
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<div align="center"><img src="https://static.igem.org/mediawiki/2018/8/8b/T--Peking--project_overview4.png" width="600 px" "height="350 px"><br /><br />
<img src="https://static.igem.org/mediawiki/2018/a/ab/T--Peking--project_overview5.png"><br /><br />
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<p style="text-align:center;">Figure. 3: Both natural and artificial have manifested multivalence<sup>[1]</sup>.</p>
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<p style="text-align:justify; text-justify:inter-ideograph;">
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Summarizing these examples and according to physical principles, interaction between modules and multivalency are essential for phase separation. In general, interaction binds the parts together and multivalency results in larger assemblies, which are two guiding principles of our design(Figure. 4).</p><br /><br />
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<div align="center"><img src="https://static.igem.org/mediawiki/2018/a/ab/T--Peking--project_overview5.png" width="600 px" "height="350 px">
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<p style="text-align:center;"> Figure. 4: Interaction and multivalence are essential for phase separation. <p>
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                                     <p>It inspired us to propose some specific applications of our synthetic organelles, including organization hub, sensor, and metabolism regulator. We have verified the feasibility of them by loading GFP-nanobody module, NAD+ sensor module and carotene production module to the whole system.</p>
+
                                     <p>It inspired us to propose some specific applications of our synthetic organelles, including organization hub, sensor, and metabolism regulator. We have verified the feasibility of them by loading GFP-nanobody module, ABA sensor module and carotene production module to the whole system.</p>
 
                                 </div>
 
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                                     <p>We believe that our work has reached the medal requirements of demonstration as we have confirmed that our synthetic organelles can be formed in vivo and deliver a range of functions both for engineering and research due to their amazing properties. The concrete demonstration of the whole platform is shown below. You can see more details of experiments and modeling in our <a href="https://2018.igem.org/Team:Peking/Results"/>Data Page</a> and <a href="https://2018.igem.org/Team:Peking/Model"/>Modeling</a></p><br/><br/><br/>       
+
                                     <p>We believe that our work has reached the medal requirements of demonstration as we have confirmed that our synthetic organelles can be formed in vivo and deliver a range of functions both for engineering and research due to their amazing properties. The concrete demonstration of the whole platform is shown below. You can see more details of experiments and modeling in our <a href="https://2018.igem.org/Team:Peking/Notebook"/>Notebook</a> and <a href="https://2018.igem.org/Team:Peking/Model"/>Modeling</a></p><br/><br/><br/>       
 +
 
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 +
[1] Banani, S. F., Lee, H. O., Hyman, A. A., & Rosen, M. K. (2017). Biomolecular condensates: organizers of cellular biochemistry. Nature reviews Molecular cell biology, 18(5), 285.
 +
 
 
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Latest revision as of 16:42, 16 October 2018

Team

Description

In this section, you could see the demonstration.

Descripition

Ever since the beginning of life, compartmentalization has been playing a crucial role in biological systems. The famous Miller-Urey experiment shows that inorganic molecules can be transformed into organic substances under extreme conditions, catalyzed by, for example, lightnings. However, homogeneously distributed organic matter is not enough for life to emerge. It is almost impossible that all conditions are appropriate for life in the entire primordial soup, that is where the compartments come in.

Only after coacervate droplets form and organic molecules condense inside, can a completely different environment be attained within, thus enabling the emergence of bio-macromolecules, or in other words, making life possible.In higher cells, compartmentalization is mainly achieved by different organelles, i.e. mitochondria, chloroplasts, lysosomes, etc. They play three major roles: isolation, special environment, localization.

Intuitively, for an organelle to remain a stable compartment, it must acquire a material boundary, or more precisely, a membrane. Membrane-bound organelles are indeed common and stable, but from the perspective of synthesis, they are too complicated for primordial conditions. However, there are also non-membrane-bound organelles, for instance, stress granules, P granules and nucleoli. More importantly, their formation is guided by simple physical principles. Membrane-less organelles and phase separation. Next came the question how can we synthase membrane-less organelles.

According to physical chemistry, the process where materials self-assemble into organelles is described as ‘phase separation’, which is the conversion of a single-phase system into a multiphase system, much like how oil and water will spontaneously separate from each other. In general, materials flow to regions with low chemical potential instead of low concentration(Figure. 1). Finally, the components are no longer distributed uniformly but locally form granules, which are organelles in the cell(Figure. 2).




Figure. 1: Materials flow to regions with low chemical potential[1].

Figure. 2: The components are no longer distributed uniformly but locally form granules


Therefore, the main challenge in the synthesis of an organelle is to accomplish phase separation in a cell. We took our inspiration from existing living systems. For example, stress granules and P bodies are formed by the interaction between mRNA and proteins. RNA and proteins play a significant part in the phase separation in cells. IDR (Intrinsic Disordered Regions) are an indicator of large-scale phase separation in the cell. IDR interact with each other through van der Waals forces, electrostatic and hydrophobic effects between amino acid residues, while RNA molecules combine with proteins through their bases and ribose-phosphate chain. Previous work attempted to reproduce natural phase separation by connecting interaction modules such as SUMO/SIM and SH3/PRM to construct granules in the cell(Figure. 3).



Figure. 3: Both natural and artificial have manifested multivalence[1].

Summarizing these examples and according to physical principles, interaction between modules and multivalency are essential for phase separation. In general, interaction binds the parts together and multivalency results in larger assemblies, which are two guiding principles of our design(Figure. 4).



Figure. 4: Interaction and multivalence are essential for phase separation.

We have built spontaneous and induced synthetic organelles by specific interaction modules, so that we can control the formation process by different ways for demands in biological engineering. Then we characterized the kinetics and properties of synthetic organelles theoretically and experimentally. These results confirm the potential of synthetic organelles in synthetic biology.

It inspired us to propose some specific applications of our synthetic organelles, including organization hub, sensor, and metabolism regulator. We have verified the feasibility of them by loading GFP-nanobody module, ABA sensor module and carotene production module to the whole system.

We believe that our work has reached the medal requirements of demonstration as we have confirmed that our synthetic organelles can be formed in vivo and deliver a range of functions both for engineering and research due to their amazing properties. The concrete demonstration of the whole platform is shown below. You can see more details of experiments and modeling in our Notebook and Modeling




[1] Banani, S. F., Lee, H. O., Hyman, A. A., & Rosen, M. K. (2017). Biomolecular condensates: organizers of cellular biochemistry. Nature reviews Molecular cell biology, 18(5), 285.