Team:BIT/project.html

From 2014.igem.org

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<div id="amplifier" style=" background:url(../img/BIT_gene_circuit.png);margin:10px 0 30px 10px;">
<div id="amplifier" style=" background:url(../img/BIT_gene_circuit.png);margin:10px 0 30px 10px;">
<h1>Amplifier</h1>
<h1>Amplifier</h1>
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<img src="https://static.igem.org/mediawiki/2014/2/2d/BIT_amplifier.gif">
<p>In sensor, the amount of promoter expression stimulated by external condition can be detected by the expression amount of fluorescent protein, but most of all invisible. So, in order to increase it several times of growth, we need amplification effect. In common practice, quorum sensing, which is a grouping bacteria behavior regulation mechanism, is always applicable. It shows that bacteria respond to colony density and environmental change by sensing autoinducer. When the number of bacterial colonies reaches a certain quorum, it starts a series of gene expression to regulate group reaction. At the very beginning, we originally applied lux system in Vibrio Fischeri, for its mechanism is relatively simpler but innovatively harder. Then, we switched to las system and rhl system in pseudomonas aeruginosa.</p>
<p>In sensor, the amount of promoter expression stimulated by external condition can be detected by the expression amount of fluorescent protein, but most of all invisible. So, in order to increase it several times of growth, we need amplification effect. In common practice, quorum sensing, which is a grouping bacteria behavior regulation mechanism, is always applicable. It shows that bacteria respond to colony density and environmental change by sensing autoinducer. When the number of bacterial colonies reaches a certain quorum, it starts a series of gene expression to regulate group reaction. At the very beginning, we originally applied lux system in Vibrio Fischeri, for its mechanism is relatively simpler but innovatively harder. Then, we switched to las system and rhl system in pseudomonas aeruginosa.</p>
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<img src="../img/BIT_amplifier1.png">
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<p>In las system, inducer PAT1 enters cells and then integrates with LasR protein, and the conjugate combines the promoter of las1, then setting up the downstream expression.  
<p>In las system, inducer PAT1 enters cells and then integrates with LasR protein, and the conjugate combines the promoter of las1, then setting up the downstream expression.  
On one hand, las1 gene expression brings out las1 protein, which could produce autoinducer PAT1, and then making fluorescent protein constantly expressed by cascade amplification effect and visually visible.</p>
On one hand, las1 gene expression brings out las1 protein, which could produce autoinducer PAT1, and then making fluorescent protein constantly expressed by cascade amplification effect and visually visible.</p>
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<p>Concerning the large number of gene in these two systems, we construct two sections instead of one on two plasmids, for these two cascade amplification systems are interactive. The topological structure are as follows:</p>
<p>Concerning the large number of gene in these two systems, we construct two sections instead of one on two plasmids, for these two cascade amplification systems are interactive. The topological structure are as follows:</p>
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<img src="../img/BIT_amplifier2.png">
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</div>
</div>
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<h2>Material</h2>
<h2>Material</h2>
<p> PDMS glue; glass; semipermeable membrane (specifics are as follows)</p>
<p> PDMS glue; glass; semipermeable membrane (specifics are as follows)</p>
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<img src="https://static.igem.org/mediawiki/2014/2/2d/BIT_amplifier.gif" style="width:300px;">
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<p>Sensor bacteria produces AHL molecules when receiving radiation, and transferred AHL to amplifier bacteria, which gives out fluorescent light, whose intensity can be detected by measuring the light intensity.</p>
<p>Sensor bacteria produces AHL molecules when receiving radiation, and transferred AHL to amplifier bacteria, which gives out fluorescent light, whose intensity can be detected by measuring the light intensity.</p>
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<img src="../img/BIT_amplifier4.png">
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<p>Based on the simplified mechanism, the basic function of micro-fluidic chip contains:</p>
<p>Based on the simplified mechanism, the basic function of micro-fluidic chip contains:</p>
<p>1/separate culture of sensor and amplified bacteria</p>
<p>1/separate culture of sensor and amplified bacteria</p>
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<h2>Design of chips</h2>
<h2>Design of chips</h2>
<p>Single channel pattern</p>
<p>Single channel pattern</p>
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<img src="../img/BIT_amplifier5.png" style="width:600px">
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<p>And the chip model to meet the needs of multiple data at one time is as follows.</p>
<p>And the chip model to meet the needs of multiple data at one time is as follows.</p>
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<img src="../img/BIT_amplifier6.png" style="width:600px">
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<p>Through making model, pouring, punching and bonding, a perfect chip is made up.</p>
<p>Through making model, pouring, punching and bonding, a perfect chip is made up.</p>
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<div id="device" style=" background:url(../img/BIT_project_overview.png);margin:10px 0 30px 10px;">
<div id="device" style=" background:url(../img/BIT_project_overview.png);margin:10px 0 30px 10px;">
<h1>Device</h1>
<h1>Device</h1>
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<img src="../img/BIT_amplifier7.png" style="width:600px">
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<h2>This device composes of three parts</h2>
<h2>This device composes of three parts</h2>
<p>1、 Internal circuit: “brain” and “heart” of the whole device, single chip microcomputer(SCM) as processing core. Control and sampled signals are received and processed in this unit, then making it possible to control device, switch signals, process algorithm and display on the screen.
<p>1、 Internal circuit: “brain” and “heart” of the whole device, single chip microcomputer(SCM) as processing core. Control and sampled signals are received and processed in this unit, then making it possible to control device, switch signals, process algorithm and display on the screen.

Revision as of 14:05, 13 October 2014

radiation measurement

  • Radiation as a natural part of our environment. Annually, worldwide, more than 3,600 million X-ray examinations are performed, 37 million nuclear medicine procedures are carried

  • out, and 7.5 million radiotherapy treatments are given.”-from World Health Organization Website. Radiation correlates with us tightly. With technique development, the use of radiation in our life ascends. However inappropriate dosage may jeopardize h

  • ealth condition potentially. Most of the public are nevertheless not conscious of the latent risks. Therefore an engineered bio-system was constructed based on synthetic biology. The system is composed of amplifier and sensor. Once the sensor wa

  • s exposed to low dose radiation, it would produce signal molecules continuously. The signals would be conveyed to amplifier then and brought the amplifier into operation. Thus the amplifier would produce high massive signals for precise detection. And aiming at precise measurements, we equip the sensor with a switch to pause, hence we can detect the stable signal of the system.s exposed to low dose radiation, it would produce signal molecules continuously. The signals would be conveyed to amplifier then and brought the amplifier into operation. Thus the amplifier would produce high massive signals for precise detection. And aiming at precise measurements, we equip the sensor with a switch to pause, hence we can detect the stable signal of the system.s exposed to low dose radiation, it would produce signal molecules continuously. The signals would be conveyed to amplifier then and brought the amplifier into operation. Thus the amplifier would produce high massive signals for precise detection. And aiming at precise measurements, we equip the sensor with a switch to pause, hence we can detect the stable signal of the system.

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