Team:METU-Ankara

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<p>Firedamp explosions are frequently seen cases at all mines over the world. In Turkey every year, 50 miners lose their lives because of firedamp explosions. Firedamp is a flammable gas found in coal mines and it mainly contains methane. Beside its explosive property, methane is also the main contributor to global warming. However recent mine mechanisms release obtained methane into air. By offers of Synthetic biology, we aimed to design a device which will work on E.coli that provides solutions for side effects of methane. Device that we are planning to construct involves the genes of bacteria (Methylococcus capsulatus) and insect (Drosophilia melanogaster) Our compact system in E.coli is fabricated as sensation of methane, the conversion of methane to methanol and then entrapment of methanol to handle for biofuel and death of bacteria at 42 C by kill switch mechanism.</p>

<p>Methan<b>E.COLIc</b> project is designed to solve one of the problems of Turkey on worker security in mines, by constructing the natural parts of organisms.The main reason for us to choose such a project is that in Turkey- and also in many countries- each year, huge numbers of  workers in mines lost their life due to deficiencies  and conditions in their working areas (mines). The release of Grizu gas leads to subsidence of mines and so death of workers.This project is also designed to solve one of universal problem; global warming. Methane gas is a potential greenhouse gas.This project focuses on sensing the ambient methane gas and converting to one of the bio-fuel sources, methanol. Methanol is entrapped by product of one of the constructs of project, and then cells are dead by kill switch device of project to elute methanosol.</p>

<p><b><i>Hello everyone!We are Metu Ankara IGEM team.Our team consists of high motivated,social and enjoyable  “undergraduate  and graduate scientists”  from departments of physics, chemistry ,biology and computer education & instructional technology. We are such a team that complete each other  so that we all experienced team  spirit in IGEM. This makes us happy  while doing experiences even in the hot summer.Our slogan is “ all for one, one for all”!!Then, who are we?</i></b></p>

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<li><a href="mailto:kursat@metu.edu.tr">Kürşat Çağıltay</a></li>

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Technical University indeed  she is graduated from Biology Department at METU. This is the second year of her in IGEM team from METU.she is one of the experienced in team and elder sister:) As a vice team lead, planing the experiments and cloning strategies and motivating team are the responsibilities of her. Studying in bioengineering and regenerative sciences is her desire

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<p>I am a recent graduate of METU Molecular Biology and Genetics department and now studying towards my masters degree on Molecular Bioengineering at METU. My interest in synthetic biology did start during my undergraduate years and after graduation I started up the Sentegen company which is the first biotechnology based company focused on synthetic biology in Turkey. I continue my research and training in synthetic biology while also contributing to the development of the field in my country. We need new scientific revolutions to solve huge problems of life and emerging field of synthetic biology is best candidate for biotechnological revolution. I am interested in synthetic biology applications, along with Lab-on-a-Chip devices for molecular biology techniques, and we are designing gene synthesis chips to produce biobricks - raw materials of garage biology- faster and cheaper. I enjoy snowboarding, cycling and writing poems.</p>

<h2><a href="mailto:miktat_aktas@hotmail.com">Miktat Aktaş</a></h2>

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<p>He graduated from Computer Education & Instructional Technology Department of Middle East Technical University last semester and he contributes this genius team as a coder for website. He wants to be a successful academician in his department at METU. He likes swimming and everything related to computers and automobiles.</p>

<h2><a href="mailto:agca1988@gmail.com">M. Akif Ağca</a></h2>

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<p>Kutay is a graduate of Molecular Biology and Genetics, and now doing his M.Sc. in Biotechnology department at METU. This is his first year in IGEM team. He is interested in plant-based drugs, plant-pathogen interaction, biofuel production and bioremediation. He enjoys playing basketball, watching movies, and listening to music.</p>

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<p>Whole summer in lab work we aimed to design 7 new E.coli compatible Biobricks and  1 composite part from 2011 kit plate distributions, also we aimed to characterize each part by protein analysis and fluorescence protein measurements.</p>  

<p>We achieved design and compatibility of parts in E.coli, however not all parts’ characterization is achieved. Only the genes of designed composite part from kit plate is characterized by GFP measurements.</p>     

<p>In this section you can find out more details on all our wet lab works. You can also find our data under results subtitle and information about design of our parts-biobricks with explanations in literature. It also contains materials and protocols, and finally There is safety questions list on our safety considerations both in the lab and on a wider environmental scale.</p>

<p>Methan<b>E.COLI</b>c project arises from sustainty and conservancy of human health and safety. Therefore while we were constructing the organismal device we also wanted to inform people from all age and we wanted to increase the public awareness on our project; methane gas based (firedamp) explosions and the greenhouse effect of methane gas.</p>

<h2>Future Work</h2>

<p>Methane explosion is the main problem since the very beginning of the coal mines.  All countries tried different systems to solve this methane problem.

When we decided to join iGEM 2011 competition firstly, it was very hard to chose a project from our brainstorms. All member of this group come up with a very reasonable idea for our team and we evaluate them all were seemed very beneficial for humanity.

However, one day we face the problem of methane explosions on the news and at that time we decided to create new idea for this problem. After a long literature research, we found how seriously dangerous the methane gas and how people deal with this big problem on coal mines</p>

<p>These are the countries which have been faced with too big methane explosions true out their history. After a certain research we found that to deal up this problem, companies spent lots of money for effective solutions.

             <li>Cheap system</li>

<p>When we produce our project, we stop the search the worlds system and turn back to our country, so we saw that methane (CH3) is a big problem to get rid of our mines too.  The way carry out on our county has some missing parts on safety. While we were proceeding our project, we focus on this part mainly and we have shaped it according to this.

<br />We aimed to collect the methane gas from coal mines to the tanks which are filled with water. When the methane passes the legal percent of %1, according to our project, we dissolve the gas on water tanks. After that we put tablets which include our bacteria on the tanks , so the methane and methanol process will begin with this step.</p>

<p>According to Prof. Dr. Mustafa ÖZTÜRK’s research (Vice President of Parliamentary Commission for the environment on turkey),  this the death workers amount since 1983 to 2008 on Turkey’s coal mines.

<br />Our way, collecting all methane gas from the mine to tanks, not only make methane free working space for workers, but also could make the space more workable and safer.</p>

<p>During our research for safety systems for methane all over the world, we saw that in most ways, methane release to the atmosphere with or without some elements and chemicals. Just a few systems are used methane to produce new energy or something else.</p>

        <p>We noticed that methane gas is twenty four times harmful than the carbon monoxide gas for the atmosphere. According to our project, on the way that converting methane gas to methanol form, we prevent methane to make any damage to the nature on gas form. </p>

<p>During the research process for our project, we also realized that energy is the most important thing on today and future life. Today, all energy sources are almost over including petroleum. People are searching new energy source. As the last news from china, everyone saw that nuclear energy is not a secure and trustable way to get energy.</p>

<p>There are lots of system use now for methane gas and the gas explosions on mines. However, when we look closer to them, they are too expensive to build for a mine. If we notice also there are global economic problems nowadays, it seems not possible that companies may not be to get enough precaution for their workers, even their own life especially on the developing countries.</p>

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         <p>In our methane.colic project, the first critical point is to sense the ambient methane gas. While in literature search, we have focused on the methane and DNA or methane and  regulator protein  interaction which binds to DNA after binding to methane. In structure, methane consists of one carbon atom  and four hydrogen atom which means it is smaller in size and weight. Therefore it is hard to find any study based on methane interaction with DNA or protein to regulate transcription. This made us search for carbon hydrogen bond interaction with any oligo or protein to trigger transcription of any metabolite product. So that we also searched the literature for any organism which utilizes  any alkane chain and alkane which regulates the transcription of organismal metabolites by  interaction with DNA or protein. Since bacteria are environmental adapting organisms, it is possible to find any alkane to regulate the transcription of degradation metabolism. Then we have found the organism, Pseudomonas oleovorans to analyze the alkane degradation  of organism for its carbon source.</p>

<p> Many microorganisms live in the environments where the conditions changing frequently and so the evolution is inevitable for mechanisms to withstand unfavorable situations.  Therefore microorganisms can use their specific and sensitive mechanisms for sensing the required nutrients for them or any pollution to affect their sustainity. Otherwise they can expose to mutations which change the gene expression and gain new functionalities.  In case they have ability to survive in such conditions. </p>

<p>We analyzed the soil bacteria, Pseudomonas oleovorans. This strain can assimilate the alkane for its carbon source and one of the microbial whole cell –biosensor.  They have a gene cluster which codes for degradative pathway and includes the activator which interacts especially with linear alkanes. This activator protein, AlkS, in the presence of alkanes, induces the transcription from PalkB promoter which initiates the expression of genes code for assimilation of alkanes. We have analyzed the related articles in which the promoter region  is studied and showed that it is expressed in E.coli correctly because of the corresponding RNA polymerase binding regions.</p>

<p> Since the parts that we have found belongs to yeast organism, it was hard to us to manipulate it in bacteria E.coli. We designed the tests of this part by characterizing one of the subunits of methane monooxgenase (MMo). For the functional activity of monooxygenase enzyme, there are required 3 subunits as A,B and C. The A subunit of methane monooxygenase is 210 kDa protein that is supposed as the methane binding active site of monoxygenase complex. This protein consists of non-haem iron and contains p-hydroxo bridge structure. We planned the experiments of this step as characterization of protein A by PCR amplification with specific primers of full construct device to obtained the sequence of protein A. The methane gas is applied to cell culture with our modelled device then the cells were centrifuged and the gas concentration is measured from supernatant.</p>

                     <li>Centrifuge  cells 7 min at 1600 g (3000 rpm in JS -5.2),   4 C.</li>

              <li><strong>Transformation</strong>              <br />

                 <li>  Resuspended  the pellet with 250 ul  Resuspension solution. (Bacteria should be resuspended completely by vortexing  until no cell clumps remain)</li>

         <li>Add 350  uL Neutralization solutionand mix immediately and throughly by inverting the  tube 4-6 times.</li>

         <p><em>(The neutralized bacterial lysate is cloudy and viscous)  (&quot;throughly&quot; to avoid localized precipitation of bacterial cell  debris)</em></p>

     5 uL  10*NE  Buffer 2<br />

     0.5 uL 100* BSA<br />

     5 uL 10*NE  Buffer 2<br />

     0.5 uL 100*  BSA<br />

15 uL 10* NE  Buffer 2<br />

0.5 uL 100*BSA<br />

<p>200 ng (Aysu)<br />

   •  Each band of 1kb ladder is approx. 125 ng (2.5 ul loaded) and can be seen on gel</p>

<h3>Preparetion</h3>

     <li>  [Aysu]: Promega 1.0 kb (1.0-10Kbp), 100 bp (0.1-1.0 Kbp)</li>

       <li> 0/0 hue/saturation</li>

     <li>      2 uL 10* T4  DNA ligase bufferl</li>

<h3>Here is Our Online Lecture, Click the picture to go;</h3>

<h3>Collaboration with Turk teams in iGEM 2011 </h3><br />

   Since iGEM 2007, there is a team to research and prepare a project for iGEM competition from Middle East Technical University(METU).  On behalf, there are advisors and instructors who are familiar with competition and content of it. In this year there are 4 registered teams from Turkey and 3 of them are new participants. Therefore in order to come together and criticize our projects and any deficiencies or ambugity related with project. So we organized and arranged a meeting on Synthetic Biology and iGEM competition which is the first in our country.The participants of this meeting were teams;<b>Fatih Turkey, Bilkent_UNAM, METU-BIN</b> and researchers who related with Synthetic Biology and company owners in Biotechnology field also there was special guests via online talk, Drew Endy, he is an assistant Professor of Bioengineering, Stanford University and <b>scott.??</b> This meeting was held in September 10, that was close to Regional Jamboree in order to also check the presentation preparations of teams. The news agencies were also invited and the interviews were done with all teams publicity of teams were enhanced. <br />

   Except from this, we established a collaboration with <b>METU-BIN Software iGEM 2011</b> team  on their software program. This year their project, <a href="http://dayhoff.ii.metu.edu.tr:8080/m4b/">M4B: Mining for BioBricks</a> is on enhancement and simplification of parts registry and gene library usage to ease the wet lab researchers job. They requested us to use and try their software program. One of our parts in this year, kill switch is composite of this year distributions. By the way we tried their program to search and try on this composite. we gave them the following as feedback and also according to our comments on visual of program, we had collaborated this year.<br />

  <h3>Helping to other new Turk teams in the future</h3> <br />

                       <h3>Here is rough draft of BioGuide Paper you can read for technical details;</h3>

<h3>You can watch the how to video of BioGuide to see what and how you can do with it;</h3>

<p>In downstream of promoter there is RNA thermometer(ROSE) coding region which determines the transcription of our lysis composite part. We had reached this part by coding the temperature 42 in input box of BioGuide. RNA thermometer (BBa_K115001) is temperature sensitive at which 42C translation initiates. </p>

<p>We had designed this composite and it's parts mostly by processing the BioGuide program that made our job easier in intense lab works. We reached the shortest path with our input and output parameters for this device to construct by BioGuide</i></p>  

         <p>When examined in order, conversion is the second step of device system. While in literature searches, it is found that methanotrophs which live in either extreme conditions or in deep oceans, the process is the same, methane is converted to methanol which is the oxygenated form of hydrocarbon group. The searches directed us to organism Methylococcus capsulatus which is one of the mostly studied organisms among methanotrophs. We designed the conversion part of this organism and modified coding operon according to E.coli strain to enhance the expression. The monoxygenase coding part with  protein A, B and C products are designed for conversion step of  this project.</p>

<p> In contrast to pMMO, sMMO has extremely broad substrate specificity and can oxidise a wide range of non-growth substrates such as alkanes, alkenes and aromatic compounds thus making it the more attractive enzyme for co-oxidation reactions. sMMO is expressed only under conditions in which the copper-to-biomass ratio is low, i.e. under “low-copper” growth conditions, when copper ions are omitted from the trace elements solution of a standard mineral salts medium or cells are grown in a fermentor to high cell densities.There is also some evidence that copper ions inhibit the activity of sMMO (Jahng and Wood 1996). Like many other multi-component oxygenase systems, sMMO contains a component of approximately 16 kDa, Protein B, which serves an “effector” or regulatory role. The activity of Protein B may be regulated by proteolysis at its amino terminus (Lloyd et al. 1997). At low concentrations, Protein B converts the hydroxylase from an oxidase and stabilizes intermediates necessary for oxygen activation. Saturating amounts of Protein B dramatically increase the rates of formation of intermediates and accelerate catalysis of methane to methanol by sMMO (Lee and Lipscomb 1999). When analyzed, the most extensively characterised sMMO enzymes are those from Methylococcus capsulatus (Bath) and Methylosinus trichosporium OB3b (reviewed in Lipscomb 1994; Deeth and Dalton 1998). Therefore we preferred to study on Methylococcus capsulatus (Bath) for monooxygenase.The sMMO is a non-haem iron-containing enzyme complex consisting of three components. The hydroxylase consists of three subunits of 60, 45 and 20 kDa arranged in an α2 β2 γ2 configuration. sMMO genes are clustered on the chromosome of Methylococcus capsulatus (Bath) and Methylosinus trichosporium OB3b.  mmoX, mmoY and mmoZ encode the α-,  β- and  γ-subunits respectively of the hydroxylase. mmoB and mmoC code for Protein B and the reductase component. Interestingly, mmoB lies between mmoY and mmoZ;  an ORF of unknown function, designated orfY, with a coding capacity of 12 kDa, lies between mmoZ and mmoC in all genes clusters analysed to date (McDonald et al. 1997).</p>

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<h2>Biobricks</h2>

<p>For this age group, we prepared and modified one of the national child game. In this game there is a circle of group of child, one is not included in that circle. It runs around the circle and labels one of the participants in circle. When recognizes, it chases that one with singing that special song. In our modified game, the one that out of circle was our restriction enzyme due to our group in video, we assigned the enzymes into two,also they are double digestion enzymes. These ones wore white caps in video. And we have three insert groups which wore red, green and yellow caps. The blue capped ones were our backbone.<br /> During (By this game and at the begining of) this game we told to kids what is DNA, enzyme and insert, and what we have done as Synthetic Biology.</p>

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<p>This group consists of high school aged children groups.Through out the workshop,  we have paired them as two groups. Firstly we have explained  Synthetic Biolgy  and what Synthetic Biology is able to do. After these training, we told  them our project and taught them basic molecular biology procedures and what are required for basic synthetic biology based experiments. We have done the experiments(cloning procedures) together and also they did individually. We also encouraged them to join iGEM High School division.</p>

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<p>This group consists of METU students. We arranged the Physics lectures in METU by contacting with instructor. To give  an effective presentation (Due to physics is an service course in METU), we have reached to students in several departments. We had told our project individually and told them what is Synthetic Biology, we gained many volunteers to join METU-iGEM team for the following years. Also in METU we have an online lecture application as METU open course ware. For  this web page, we have prepare the course notes and they were uploaded to reach many students from all around  to inform and contact for further relations about Synthetic Biology.

Moreover, we distributed hand outs about our project and synthetic biology at METU campus, when the new students registrations were done. We aimed to  inform students about our project and synthetic biology to attract their attention on the issue.</p>

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<p>For this group of people we met with group of engineers in Turkey who work in mining fields in Turkey. We have told our project in details and we have consulted them on background of our project. What are the conditions in mines, what are the general regulations for worker safety and what are the rooted controls for any gas release are the points which we asked and discussed on.</p>

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<p>After conversion of methane to methanol, the successive step is the entrapment of methanol. Methanol is an alcohol form of hydrocarbon methane and includes hydroxyl group. Hydroxyl radical groups are highly reactive and, and so short-lived; however, they form an important part of radical chemistry. Hydroxyl groups are especially important in biological systems and their chemistry because free radicals tend to form hydrogen bonds both as donor and acceptor. This property is also related to their ability to increase hydrophilicity and water solubility. Therefore hydroxyl free radicals cause damage to oxidative cells and cellular membranes. In order to produce the methanol for further industrial manufacturing in cellular organism, the organismal conditions should be adjusted. In the light of this, for our bacterial system we transferred the protein coding sequence(named as LUSH) of Drosophilia melanogaster to attack to free methanols and hydroxyl group. Here is some structural information about protein LUSH.</p>

<p>LUSH is an alcohol-sensitive odorant binding protein expressed in the olfactory organs of Drosophila melanogaster, and it is used as a model system to investigate the biophysical nature of

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<h2>Contact</h2>

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