Difference between revisions of "Team:NJAU China"
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<p>In this project, we try to complete a simulation of memorizer. Nowadays, the most cellular memories are limited to protein levels, which are transient, instantaneous and inapparent. We designed a system to achieve the storage of information by a transient stimulation but use a long-lasting response. The two processes are divided into two bacterial community, the “Recorder” and the “Saver”, which complete their information exchange by conjugation. And in order to realize the memory erasure, we use the CRISPR-Cas9 system in the “Saver” when they receive a specific signal. By design such a cellular memory technology, we make a bacterial memory storage device. And together with biological transistor and other bio-electronic component, we can preview the prototype of the biological computer<sup> [1] </sup>.</p> | <p>In this project, we try to complete a simulation of memorizer. Nowadays, the most cellular memories are limited to protein levels, which are transient, instantaneous and inapparent. We designed a system to achieve the storage of information by a transient stimulation but use a long-lasting response. The two processes are divided into two bacterial community, the “Recorder” and the “Saver”, which complete their information exchange by conjugation. And in order to realize the memory erasure, we use the CRISPR-Cas9 system in the “Saver” when they receive a specific signal. By design such a cellular memory technology, we make a bacterial memory storage device. And together with biological transistor and other bio-electronic component, we can preview the prototype of the biological computer<sup> [1] </sup>.</p> | ||
<div style="text-align:center"><img src="https://static.igem.org/mediawiki/2015/2/25/FH1.png" /></div> | <div style="text-align:center"><img src="https://static.igem.org/mediawiki/2015/2/25/FH1.png" /></div> | ||
| − | <p>Description [Figure | + | <p>Description [Figure 1.1].</p> |
| − | + | ||
<p>Process:</p> | <p>Process:</p> | ||
| − | <p> | + | <p>low location<sub>2</sub>(s) |
<h3>Refrences:</h3> | <h3>Refrences:</h3> | ||
<p>[1] Farzadfard F, Lu T K. Genomically encoded analog memory with precise in vivo DNA writing in living cell populations[J]. science, 2014, 346(6211): 1256272.</p> | <p>[1] Farzadfard F, Lu T K. Genomically encoded analog memory with precise in vivo DNA writing in living cell populations[J]. science, 2014, 346(6211): 1256272.</p> | ||
Revision as of 01:35, 10 July 2015
Abstract
Project Description
In this project, we try to complete a simulation of memorizer. Nowadays, the most cellular memories are limited to protein levels, which are transient, instantaneous and inapparent. We designed a system to achieve the storage of information by a transient stimulation but use a long-lasting response. The two processes are divided into two bacterial community, the “Recorder” and the “Saver”, which complete their information exchange by conjugation. And in order to realize the memory erasure, we use the CRISPR-Cas9 system in the “Saver” when they receive a specific signal. By design such a cellular memory technology, we make a bacterial memory storage device. And together with biological transistor and other bio-electronic component, we can preview the prototype of the biological computer [1] .
Description [Figure 1.1].
Process:
low location2(s)
Refrences:
[1] Farzadfard F, Lu T K. Genomically encoded analog memory with precise in vivo DNA writing in living cell populations[J]. science, 2014, 346(6211): 1256272.