Difference between revisions of "Team:Fudan China/Project"

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         <div class="childPage cPodd"><h1>Description</h1>As it has been known to us since we were very young, memory is related to our mind and is able to be stored and retrieved about our pasts. Now, biological memory has been defined as a sustained cellular response to a transient stimulus1. Cellular memory devices with cell or cell population have...</div>
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         <div class="childPage cPodd" onclick="location.href='https://2017.igem.org/Team:Fudan_China/Description'"><h1>Description</h1>As it has been known to us since we were very young, memory is related to our mind and is able to be stored and retrieved about our pasts. Now, biological memory has been defined as a sustained cellular response to a transient stimulus. Cellular memory devices with cell or cell population have...</div>
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         <div class="childPage cPeven" onclick="location.href='https://2017.igem.org/Team:Fudan_China/TSS'"><h1>Two-signal system</h1>To memorize a dynamic changing process of one signal or serial signal(Fig.1), we have raised an idea of constructing a unique memory device with sequential memory structure, called MemOrderY. Besides the signal we want to record, the Target signal, another Clock signal with the manner of oscillation is brought into the system to provide the</div>
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         <div class="childPage cPodd" onclick="location.href='https://2017.igem.org/Team:Fudan_China/MSS'"><h1>Multi-signal system</h1>Of course, recording one changing signal in only two time periods is not enough for us to solve real-world problems. As a result, we have further designed multi-signal system based on two-signal system, which records one changing signal in more than two time periods... </div>
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         <div class="childPage cPeven" onclick="location.href='https://2017.igem.org/Team:Fudan_China/Parts'"><h1>Parts</h1>For this year’s iGEM competition, our team has chosen to submit three integrases CDS and their corresponding attB and attP sites. We have also submitted the attB and attP sites of phiC31 as improved parts. In our experiments, we tested all 5 integrases, phiBT1(BBa_K2460001), phiC31 and TG1(BBa_K2460007) from Steptomyces phage and Bxb1, phiRv1(BBa_K2460004) from Mycobacterium phage, for their effiency and orthogonality. Among these integrases, phiBT1 showed the best performance.</div>
 
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Revision as of 18:14, 31 October 2017

Description

As it has been known to us since we were very young, memory is related to our mind and is able to be stored and retrieved about our pasts. Now, biological memory has been defined as a sustained cellular response to a transient stimulus. Cellular memory devices with cell or cell population have...

Two-signal system

To memorize a dynamic changing process of one signal or serial signal(Fig.1), we have raised an idea of constructing a unique memory device with sequential memory structure, called MemOrderY. Besides the signal we want to record, the Target signal, another Clock signal with the manner of oscillation is brought into the system to provide the

Multi-signal system

Of course, recording one changing signal in only two time periods is not enough for us to solve real-world problems. As a result, we have further designed multi-signal system based on two-signal system, which records one changing signal in more than two time periods...

Parts

For this year’s iGEM competition, our team has chosen to submit three integrases CDS and their corresponding attB and attP sites. We have also submitted the attB and attP sites of phiC31 as improved parts. In our experiments, we tested all 5 integrases, phiBT1(BBa_K2460001), phiC31 and TG1(BBa_K2460007) from Steptomyces phage and Bxb1, phiRv1(BBa_K2460004) from Mycobacterium phage, for their effiency and orthogonality. Among these integrases, phiBT1 showed the best performance.