Difference between revisions of "Team:Fudan-TSI/Demonstrate"

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     <title>2019 Team:Fudan -Demonstrate</title>
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     <title>2019 Team:Fudan-TSI Demonstrate</title>
 
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                 <a href="#!"><img alt=alt="project summary" src="https://static.igem.org/mediawiki/2018/9/96/T--Fudan--X.svg"></a>
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                 <div class="container">
 
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                     <h2 style="margin: 0;padding: 10px 0;">Project Summary</h2>
 
                     <h2 style="margin: 0;padding: 10px 0;">Project Summary</h2>
                     <p style="margin: 0">Contact-dependent signaling is critical for multicellular biological
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                     <p style="margin: 0">abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract abstract due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5 due sep 5
                        events, yet customizing contact-dependent signal transduction between
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                        cells remains challenging. Here we have developed the ENABLE toolbox, a
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                        complete set of transmembrane binary logic gates. Each gate consists of
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                        3 layers: Receptor, Amplifier, and Combiner. We first optimized synthetic
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                        Notch receptors to enable cells to respond to different signals across the
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                        membrane reliably. These signals, individually amplified intracellularly by
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                        transcription, are further combined for computing. Our engineered zinc finger-based
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                        transcription factors perform binary computation and output designed products.
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                        In summary, we have combined spatially different signals in mammalian cells,
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                        and revealed new potentials for biological oscillators, tissue engineering,
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                        cancer treatments, bio-computing, etc. ENABLE is a toolbox for constructing
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                        contact-dependent signaling networks in mammals. The 3-layer design principle
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                        underlying ENABLE empowers any future development of transmembrane logic circuits,
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                        thus contributes a foundational advance to Synthetic Biology.
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                                    <span>Project</span>
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                                  <span><a href="/Team:Fudan-TSI/Description">Project</a></span>
 
                                     <ul>
 
                                     <ul>
 
                                         <li><a href="/Team:Fudan-TSI/Description">Background</a></li>
 
                                         <li><a href="/Team:Fudan-TSI/Description">Background</a></li>
 
                                         <li><a href="/Team:Fudan-TSI/Design">Design</a></li>
 
                                         <li><a href="/Team:Fudan-TSI/Design">Design</a></li>
                                         <li><a href="/Team:Fudan-TSI/Protocols">Experiments</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Applied_Design">Applied Design</a></li>
                                         <li><a href="/Team:Fudan-TSI/Demonstrate">Results</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Experiments">Experiments</a></li>
                                         <li><a href="/Team:Fudan-TSI/Judging">iGEM judging</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Judging">Judging</a></li>
 
                                     </ul>
 
                                     </ul>
 
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                                     <ul>
 
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                                         <li><a href="/Team:Fudan-TSI/Basic_Part">Basic parts</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Results#ReverseTranscription">Reverse Transcription</a></li>
                                         <li><a href="/Team:Fudan-TSI/Composite_Part">Composite parts</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Results#Recombination">Recombination</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Demonstrate">Demonstration</a></li>
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                                     </ul>
 
                                     </ul>
 
                                 </div>
 
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                                     <span>Lab</span>
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                                     <span><a href="/Team:Fudan-TSI/Model">Model</a></span>
 
                                     <ul>
 
                                     <ul>
                                         <li><a href="/Team:Fudan-TSI/Interlab">iGEM interLab</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Protocols">Protocols</a></li>
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                                     </ul>
 
                                     </ul>
 
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                                    <span>not-sure</span>
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                                         <li><a href="/Team:Fudan-TSI/Applied_Design">Applied design</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Basic_Part">Basic parts</a></li>
                                         <li><a href="/Team:Fudan-TSI/Hardware">Hardware</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Composite_Part">Composite parts</a></li>
                                         <li><a href="/Team:Fudan-TSI/Model">Model</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Improve">Improved parts</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Part_Collection">Part collection</a></li>
 
                                     </ul>
 
                                     </ul>
 
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                                    <span>Outreach</span>
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                                        <li><a href="/Team:Fudan-TSI/Public_Engagement">Education &amp; Public engagement</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Collaborations">Collaborations</a></li>
 
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                                         <li><a href="/Team:Fudan-TSI/Human_Practices">Human practices</a></li>
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                                         <li><a href="/Team:Fudan-TSI/Safety">Safety</a></li>
                                        <li><a href="/Team:Fudan-TSI/Public_Engagement">Public engagement</a></li>
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                                        <li><a href="/Team:Fudan-TSI/HP">Why we do this</a></li>
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                                     </ul>
 
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                                    <span>Team</span>
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                                         <li><a href="https://2018.igem.org/Team:Fudan/Heritage" target=_blank>Heritage</a></li>
 
                                         <li><a href="https://2018.igem.org/Team:Fudan/Heritage" target=_blank>Heritage</a></li>
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                                         <li><a href="/Team:Fudan-TSI">&copy; 2019</a></li>
 
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                           <div class="col s12 m6 l4"><i class="fa fa-location-arrow"></i> Life Sci Bldg E301, 2005 Songhu Rd, Shanghai
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                           </div><div class="col s12 m6 l2"><i class="fa fa-fax"></i> +86-21-31246727
 
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                           </div><div class="col s12 m6 l2"><i class="fa fa-envelope-o"></i> igem@fudan.edu.cn
 
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Revision as of 14:18, 29 August 2019

2019 Team:Fudan-TSI Demonstrate

Demonstration

Demonstration

Video abstract

Transmembrane Logic

Sensing and integrating various transmembrane signals is a key aspect of cellular decision making.

For example, activation of CD8+ cells requires co-activation of TCR and CD28 molecules, meanwhile, this activation can be inhibited by the PD-1 pathway (Hui et al., 2017). By abstracting this biological process, we can get: the activation of CD8+ cell = activated TCR AND (activated CD28 NIMPLY activated PD-1). Programming cells with predictable complex transmembrane signal inputs – customized intracellular signal outputs logic relationships are significant for expanding the widespread applications of mammalian cells, such as cellular immunotherapy (Fedorov et al., 2013; Kloss et al., 2013; Roybal et al., 2016a; Roybal et al., 2016b), tissue patterning (Morsut et al., 2016;Roybal et al., 2016; Toda et al., 2018).

Repeated Evolution in vivo

The ingenious design of nature makes us amazing, and inspires us to explore new possibilities. By designing the ENABLE (Engineered, Across-membrane, Binary Logic in Eukaryotes) system and achieving the first complete transmembrane binary Boolean logic in mammals, we could make the pupil outdo the master, make cells even smarter.

Optimizing the Receptor, aims for reduced background activation

In order to be able to implement a custom multiplexed transmembrane signal input/output relationship, the first condition is that engineering modular receptor to enable it to recognize extracellular signals and transduce them into customized intracellular signals. SynNotch is a transmembrane receptor with high programmability. Therefore, we can use this tool to receive extracellular signals and output customized intracellular signals.

Good tools are prerequisite to the successful execution of a job. In order to make SynNotch more suitable as a tool for receiving complex extracellular signals, we have optimized it. Please visit Optimization page for more details.

Three-layer design for dual transmembrane signals

The expression of membrane proteins on the cell membrane is limited. Our modeling tells us how to make cells sensitive to the limited signal molecules, and perform function efficiently is the key to make the transmembrane logic gate system work.

Based on this, we developed the ENABLE system with a 3-layers design: Receptor, Amplifier, and Combiner. By adding an intermediate layer, the “Amplifier” layer, we are able to effectively amplify the transmembrane signal, thus enabling our intracellular components to effectively travel logic functions.

The 3-layer design principle underlying ENABLE empowers any future development of transmembrane logic circuits, thus contributes a foundational advance to synthetic biology.

Unified intracellular logic gates layout

In order to be able to receive dual transmembrane signals and produce complete binary Boolean logic, we designed a set of interactive grammar for the interaction between the "Amplifier" layer and the "Combiner" layer within the cell membrane. This grammar consists mainly of the following elements, a transcription system based on the activating-form, silencing-from or NIMPLY-form promoters (the three are collectively referred to as a synthetic transcription factor-promoter pairs based transcription system); intein-based protein in vivo fusion systems, proteolytic enzyme-based protein in vivo destruction systems (the two are collectively referred to as a protein fusion/destruction-based transcription factor logic). We have test them and report in Results page, as well as on parts.igem pages.

ENABLE logic gates

Below we show experimental verifications of six (OR, NOR, AND, NAND, IMPLY, NIMPLY) of the eight truly binary logics.

Here, we use the OR gate as a proof of concept for a three-layer transmembrane binary Boolean logic during tissue patterning.

Through dynamic and static observations, we can see that the Receiver cell with transmembrane OR gate can be activated by two Sender cells expressing different membrane antigens.

Public engagement and education

Our human practice activities include dialogues (debate and interviews), presentations, Bio-Art display and hands-on practices, all of which centered around farseeing. We want to unlock the creativity and intelligence in as many people as possible. Fully engaged with the public, we motivated by their openness and willingness, which reminds us why we initiated the research and why we work hard in the lab - for the good of the people, including ourselves.

In our GJ presentation (10/25 Room 311 9:00-9:25), we used the image above to show other how to use our ENABLE toolbox.

In our GJ presentation (10/25 Room 311 9:00-9:25), we used the image above to demonstrate the unlimited potential of mammalian cell computation: complex logic in one cells, distributed computing using CellBricks, and cell messengers travel far distance.




project summary

Project Summary

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