Team:BIT/project.html

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<div id="Abstract" style=" background:url(../img/BIT_project_overview.png);margin:10px 0 30px 10px;">
<div id="Abstract" style=" background:url(../img/BIT_project_overview.png);margin:10px 0 30px 10px;">
<h1>Abstract</h1>
<h1>Abstract</h1>
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         <p>The mechanism of Sensor A engineering bacteria</p>
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         <p>There are many types of radiation around people. In recent years,more and more organisms are suffering from the radiation damage, such as ionizing radiation, Ultraviolet radiation, electromagnetic radiation, etc . Although we can detect the different types of radiation by some instruments, It is still hard for human being to understand how serious the endangerment through the number on the screen is. So here we are. We create a biological system to detect the dosage of  radiation, so that we can easily know how much damage there is.
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<p>This gene circuit applies bistable mechanism, involving two types of promoters: recA and lac, which dividedly regulate the expression of the gene sequence of repressor lacl and lexA, whose product suppress promoter lac and recA. The reporter gene of lacl and lexA thereafter bring out RFP<b>(red fluorescent protein)</b> and GFP<b>(green fluorescent protein)</b>, both of which could ~~~~. As upstream and downstream gene promote and mutually repress, the whole system has two stable output state:</p>
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The mechanism of our project by detecting the damage caused by radiation thus to measure the dosage of radiation. We construct 2 sensor systems separately. Both of them aim at the low dosage radiation damage, besides some other specific main targets.
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Sensor A is based on a toggle switch system, involving two types of promoters: recA and lac, which dividedly regulate the expression of the gene sequence of repressor lacl and lexA, whose product suppress promoter lac and recA. As upstream and downstream genes promote and mutually repress, the whole system has two stable output state considering the robust of the toggle switch system itself.  
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<p>State A: As promoter precA works, repressor lacl is expressed, then the product lexArepresses promoter lac, and repressor lexA is not expressed, thus cannot exert depressant action to promoter precA. When promoter recA works while promoter plac is shut down, the whole system remains perfectly stable. Afterwards, the downstream reporter gene of promoter precA, GFP, is turned on, then product can be detected.</p>
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Sensor B is based on the positive feedback existed with pSox, an oxidative stimulus inducible promoter.
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The amplifier system we assembly origins from the quorum sensing system existed in P.Aeruginosa.
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<p>State B: promoter plac works, repressor lexA is expressed, then the product lexA represses promoter precA, and repressor lexA is not expressed, thus cannot exert depressant action to promoter plac. When promoter plac works while promoter precA is shut down, the whole system remains perfectly stable. Afterwards, the downstream reporter gene of promoter plac, RFP, is turned on, then product can be detected.</p>
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We combine the amplifier system and sensor system with microfluidics and device platform, which can precisely detect the extent of damage. </p>
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<p>Two external input signals: IPTG and radiation-produced SSB can separately counteract the inhibition of expression product of repressor lacl towards promoter plac and repressor lexA towards precA. Their involvement could make the whole system switch between the two states.</p>
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<div id="Micro-fluidic chip" style=" background:url(../img/BIT_project_overview.png);margin:10px 0 30px 10px;">
 
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<h1>Micro-fluidic chip</h1>
 
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<h2>Material</h2>
 
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<p> PDMS glue; glass; semipermeable membrane (specifics are as follows)</p>
 
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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>
 
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<p>Based on the simplified mechanism, the basic function of micro-fluidic chip contains:</p>
 
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<p>1/separate culture of sensor and amplified bacteria</p>
 
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<p>2/deliver the metabolite from sensor to amplifier, and mix it with amplifier bacteria as much as possible</p>
 
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<p>3/fluorescent light given out by bacteria B can be detected.</p>
 
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<p>4/detect multiple samples at a time</p>
 
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<br>
 
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<h2>Design of chips</h2>
 
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<p>Single channel pattern</p>
 
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<p>And the chip model to meet the needs of multiple data at one time is as follows.</p>
 
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<p>Through making model, pouring, punching and bonding, a perfect chip is made up.</p>
 
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<h2>Function</h2>
 
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<p>Sensor bacteria above receives radiation, and metabolizes AHL molecules, which pass the semipermeable membrane and transmit the amplifier to the detection hole.</p>
 
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<p>The transmission method remains unknown for we cannot make sure of the transmembrane way of AHL.</p>
 
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         <label for="tab1">reference</label>
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           <p>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 </p>
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           <p>[1]Pseudomonas aeruginosa Autoinducer Enters and Functions in Mammalian Cells. Simon C. Williams,Erin K. Patterson,Nancy L. Carty,3John A. Griswold,Abdul N. Hamood,and Kendra P. Rumbaugh.JOURNAL OF BACTERIOLOGY, Apr. 2004, p. 2281-2287</br>
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        </div>
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[2]Regulation of las and rhl Quorum Sensing in Pseudomonas aeruginosa. EVERETT C. PESCI, JAMES P. PEARSON, PATRICK C. SEED, BARBARA H. IGLEWSKI.JOURNAL OF BACTERIOLOGY, May 1997, p. 3127–3132 </br>
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    </li>
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[3]Functional Analysis of the Pseudomonas aeruginosa Autoinducer PAI. LUCIANO PASSADOR,KENNETH D. TUCKER,KEVIN R. GUERTIN,MICHEL P. JOURNET,ANDREW S. KENDE,BARBARA H. IGLEWSKI.JOURNAL OF BACTERIOLOGY, Oct. 1996, p. 5995–6000 </br>
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[4]Dimerization of the quorum sensing regulator RhlR: development of a method using EGFP fluorescence anisotropy.Isabelle Ventre,Fouzia Ledgham,Valérie Prima, Andrée Lazdunski, Maryline Foglino and James N. Sturgis.Molecular Microbiology (2003) 48(1), 187–198</br>
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    <li>
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[5] Quorum sensing: cell-to-cell communication in bacteria.Waters CM1, Bassler BL. Annu Rev Cell Dev Biol. 2005;21:319-46.</br>
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        <input type="radio" name="tabs" id="tab2" />
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[6]Signal-amplifying genetic circuit enables in vivo observation of weak promoter activation in the Rhl quorum sensing system. Karig D1, Weiss R. Biotechnol Bioeng. 2005 Mar 20;89(6):709-18.</br>
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        <label for="tab2">material</label>
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[7] A New Transcriptional Repressor of the Pseudomonas aeruginosa Quorum Sensing Receptor Gene lasR.Longo, F; Rampioni, G; Bondi, R; Imperi, F; Fimia, GM; Visca, P; Zennaro, E; Leoni, L; Leoni, L (reprint author), Univ Roma Tre, Dept Sci, Rome, Italy. PLOS ONE, 2013; 8 (7)</br>
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        <div id="tab-content2" class="tab-content">
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          <p>out, and 7.5 million radiotherapy treatments are given.”-from World Health Organization Website.
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</p>
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Radiation correlates with us tightly. With technique development, the use of radiation in our life ascends. However inappropriate dosage may jeopardize h</p>
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        <label for="tab3">method</label>
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          <p>ealth condition potentially. Most of the public are nevertheless not conscious of the latent risks.
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Therefore an engineered bio-system was constructed based on synthetic biology.  
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The system is composed of amplifier and sensor. Once the sensor wa</p>
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         <label for="tab4">record</label>
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           <p>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.</p>
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           <p>Experiment</br>
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2014.5~6 </br>
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Look up for references/Brainstrom</br>
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2014.6.15-2014.7.15</br>
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SensorA  Plasmid  Construction</br>
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2014.7.16-2014.10.10</br>
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SensorB & Amplifier  Plasmids Construction</br>
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Pre-experiment</br>
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1.sensorA :IPTG-induce experiment for 8 times</br>
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2.sensorA :UV radiation experiment for 8 times</br>
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3.sensorA :Ionizing radiation/γ-ray radiation experiment once</br>
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4.amplifier :Autoinducer PAO1 (time and concentration gradient) induced twice</br>
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</br>
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Data</br>
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Fluorescence  Detection  of  SensorA & Amplifier’s  pre-experiment</br>
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2014.9.15-2014.9.25</br>
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Mathematical  Model  Construction</br>
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Humanpractice:</br>
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8.22-8.23  CCIC</br>
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8.28  Academic Exchange with BUCT</br>
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9.29  LZU</br>
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8.11 am: Environmental Protection Bureau(EPB) Interview</br>
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pm: Radiology Department Interview</br>
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10.11 </br>
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The freshmen mobilization</br>
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</p>
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Latest revision as of 03:39, 18 October 2014

radiation measurement

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