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• Giant Jamboree/Projects
  ...s ></A><BR><BR>< Gastric ulcer is a disease that caused by a gram negative bacteria called H. Pylori. As far as we know, ½ of human population is effected wit ...cal engineering bacteria, connected with the aptamers, to make engineering bacteria able to detect the macromolecules, thus providing biological solutions in t
  271 KB (42,018 words) - 20:59, 14 September 2015
• Team:Oxford/Blog
  ...AlgiBeads</a>. These represent an additional method of containment for our bacteria and, along with the <a class="definition" title="catheter" data-content="A and kill switches, allow us to ensure the safety of our bacteria as a therapeutic agent.
  107 KB (13,740 words) - 02:51, 19 September 2015
• Team:Oxford/Test/Blog
  ...with the catheter and kill switches, allow us to ensure the safety of our bacteria as a therapeutic agent. ...the 1950s, around the time antibiotic use reached large scales. While some bacteria have been resistant to a given antibiotic prior to it being used as a medic
  102 KB (12,840 words) - 14:21, 12 September 2015
• Team:ATOMS-Turkiye/Project/Ulcer
  ...of all other proteins. By overexpressing this protein, we aim to have our bacteria resistant enough to live in gastric juice for a while.</p> ...oli so that It can penetrate the stomach mucus layer, where our pathogenic bacteria, H.pylori, resides.</p>
  128 KB (20,011 words) - 03:42, 5 October 2015
• Team:ATOMS-Turkiye/Project/Ulcer1
  ...of all other proteins. By overexpressing this protein, we aim to have our bacteria resistant enough to live in gastric juice for a while.</p> ...oli so that It can penetrate the stomach mucus layer, where our pathogenic bacteria, H.pylori, resides.</p>
  130 KB (20,222 words) - 09:29, 5 October 2015
• Team:ATOMS-Turkiye/Project/Ulcer2
  ...of all other proteins. By overexpressing this protein, we aim to have our bacteria resistant enough to live in gastric juice for a while.</p> ...oli so that It can penetrate the stomach mucus layer, where our pathogenic bacteria, H.pylori, resides.</p>
  130 KB (20,395 words) - 03:27, 5 October 2015
• Team:WLC-Milwaukee/Project
  <b>Problem:</b> Bacteria are becoming increasingly resistant to antibiotics at an alarming rate. ...iawiki/2015/d/d3/WLC-DropArrow.png" width="33" height="21">Disease Causing Bacteria</b></font></h1></label>
  54 KB (8,117 words) - 03:20, 19 September 2015
• Team:USTC/Results
  won't severely affect the growth of bacteria, at least it won't significantly inhibit bacteria growth and become a kill switch.</p>
  79 KB (7,338 words) - 16:20, 14 October 2015
• Team:Wellesley TheTech/Team/Notebooks
  ...Children, and the viruses stayed inside the bacteria and did not leave the bacteria. ...e) mitosis and the asexual replication of bacteria. It copies the way that bacteria duplicates (increases to double its size and then divides into two at its m
  99 KB (17,327 words) - 03:41, 19 September 2015
• Team:Oxford/Design
  ...our project. The most effective approach would probably be to deliver our bacteria directly through the catheter into the bladder. However, we found that the ...The ability to disperse biofilms formed by multidrug-resistant bacteria adds a major new weapon to the limited arsenal of therapies available today
  31 KB (3,744 words) - 11:05, 20 November 2015
• Team:Vilnius-Lithuania/Labjournal
  <td>Bacteria inoculation (4 minipreps).</td> <td>Bacteria with P14</td>
  48 KB (6,078 words) - 03:56, 19 September 2015
• Team:TU Delft/Practices
  <p class="lead">The biofilm industry is generally regulated with respect to bacteria present in the biofilm. Thus, diverse regulations may apply. A special cas ...experiments do not involve any human or other living test subjects (except bacteria). In this sense, it is easier and cheaper for industry to work with biofilm
  139 KB (20,165 words) - 22:15, 17 September 2015
• Team:Czech Republic/Notebook
  ...ccessful Gibson assembly. ([[Team:Czech_Republic/Protocols#Transformation_(bacteria)|Transformation]], [[Team:Czech_Republic/Protocols#Colony_PCR|Colony PCR]], ...#Gibson|Gibson assembly]], [[Team:Czech_Republic/Protocols#Transformation_(bacteria)|Transformation]], [[Team:Czech_Republic/Protocols#Colony_PCR|Colony PCR]],
  55 KB (7,346 words) - 03:19, 19 September 2015
• Team:Oxford/Practices
  ...ackle <a class="definition" title="antimicrobial resistance" data-content="Bacteria adapt to their surroundings, and can become resistant to powerful antibioti ...15.igem.org/Team:Oxford/Project">project</a>, we are developing the use of bacteria as living therapeutics to provide an alternative to administering antibioti
  59 KB (7,066 words) - 02:59, 19 September 2015
• Team:TAS Taipei/wetlab
  ...(Figure 6); however, under blue light conditions, it can be seen that only bacteria incubated at 37⁰C actually glowed (Figure 7). This is evidence that the t ...</i> Carrying Temperature-Sensitive Promoter and GFP Generator Device:</b> Bacteria grew in all tested temperatures (shown here: 30⁰C, 32⁰C, 35⁰C, and 37
  44 KB (6,376 words) - 02:45, 19 September 2015
• Team:UChile-OpenBio/Modelling
  ...cellular communication between “Lactadora” bacteria and “PLAdora” bacteria, and to analyze the situation (see Figure 1).<p/> ...ing lactate without regulation and the green producing PLA; C Two bacteria growing together, the orange producing lactate and the green producing PLA, without
  121 KB (18,837 words) - 13:54, 18 September 2015
• Team:UChile-OpenBio/Modeling
  ...cellular communication between “Lactadora” bacteria and “PLAdora” bacteria, and to analyze the situation (see Figure 1).</p> ...ing lactate without regulation and the green producing PLA; C Two bacteria growing together, the orange producing lactate and the green producing PLA, without
  211 KB (20,494 words) - 18:35, 14 November 2015
• Team:Oxford/Description
  ..."Years from now we will treat most infections with bacteria and not antibiotics." ...major public health concern in developed countries. This is largely due to growing antibiotic resistance.
  41 KB (4,920 words) - 11:29, 20 November 2015
• Team:Oxford/testtest
  ..."Years from now we will treat most infections with bacteria and not antibiotics." ...major public health concern in developed countries. This is largely due to growing antibiotic resistance.
  41 KB (4,891 words) - 10:02, 17 November 2015
• Team:SPSingapore/home
  ...rsity of Illinois-Chicago. Her laboratory studies two-component systems in bacteria that control gene expression at a single cell and nanometer level.</p></td> ...in studying silent genetic systems in enterics to decipher the behavior of bacteria under various environmental challenges. She obtained her doctorate from the
  145 KB (23,871 words) - 16:19, 8 September 2015
• Team:Utah State/Description
  ...d research of this sort to creating phage resistant strains of lactic acid bacteria.</p> ...eria are able to fight against the infection, a kill switch will cause the bacteria to lyse before the phage is able to fully form, preventing further damage t
  27 KB (4,010 words) - 03:53, 19 September 2015
• Team:elan vital korea/Background
  Bacteria acquiring resistance to antibiotics pose serious health problem globally. F Threats of Antibiotics-Resistant Bacteria
  25 KB (3,338 words) - 14:50, 18 September 2015
• Team:Elan Vital Korea/Background
  Bacteria acquiring resistance to antibiotics pose serious health problem globally. F Threats of Antibiotics-Resistant Bacteria
  25 KB (3,338 words) - 23:24, 18 September 2015
• Team:LZU-China/chz project
  ...nverts biomass energy directly into electricity. This can be achieved when bacteria switch from the natural electron acceptor, such as oxygen or nitrate, to an <p>Substrate is metabolized by bacteria, which transfer the gained electrons to the anode. This can occur either di
  110 KB (13,643 words) - 19:50, 17 September 2015
• Team:LZU-China/project
  ...nverts biomass energy directly into electricity. This can be achieved when bacteria switch from the natural electron acceptor, such as oxygen or nitrate, to an <p>Substrate is metabolized by bacteria, which transfer the gained electrons to the anode. This can occur either di
  121 KB (14,975 words) - 03:27, 19 September 2015
• Team:Elan Vital Korea/Description
  <p class="content-txt m20">Bacteria that acquire resistance to antibiotics pose a serious health problem global <h1 class="sub-title align-c m80">Threats of Antibiotics-Resistant Bacteria</h1>
  14 KB (2,086 words) - 14:51, 18 September 2015
• Team:LZU-China/chz project2
  ...nverts biomass energy directly into electricity. This can be achieved when bacteria switch from the natural electron acceptor, such as oxygen or nitrate, to an ...he working principle of a microbial fuel cell. Substrate is metabolized by bacteria, which transfer the gained electrons to the anode. This can occur either di
  88 KB (10,264 words) - 22:18, 9 September 2015
• Team:Oxford/Description-backup
  ..."Years from now we will treat most infections with bacteria and not antibiotics." ...major public health concern in developed countries. This is largely due to growing antibiotic resistance.
  52 KB (5,967 words) - 10:05, 17 November 2015
• Team:Oxford/Test/Design1
  ...during the beginning stages of our project. The approach of delivering our bacteria directly through the catheter into the bladder would probably be the most e ...could potentially be used to a large range of different pipes to tackle a growing world problem with biofilms we decide to focus on a medical application for
  15 KB (2,035 words) - 09:43, 7 September 2015
• Team:TAS Taipei/Design
  ...most socially acceptable method of drug delivery: a topical solution where bacteria (our chassis) is prevented from entering into the body, and the only thing ...r (yellow interior). The pores of the membrane are small enough to prevent bacteria, but allow our final GzmB inhibitor, to pass through.</figcaption>
  25 KB (3,462 words) - 02:43, 19 September 2015
• Team:Paris Saclay/Description
  ...</b>. <i>E. coli</i> is often chosen because of it is easy to handle, fast growing and the high level of knowledge is available for this organism.<br> ...uld have allowed us to evaluate easily the number of living <i>E. coli</i> bacteria in our samples. However, using such strain had also several drawbacks.
  49 KB (7,759 words) - 03:58, 19 September 2015
• Team:Toulouse/Results
  ...rt of the results, we also showed that this 4% concentration is lethal for bacteria. We therefore decided to aim for a minimal concentration of 0.00001 % butyr We investigated if the bacteria could grow inside a small bag of TPX®. Thus, the strain <i>E. coli</i> BW
  55 KB (8,373 words) - 03:00, 19 September 2015
• Team:Oxford/Test/Design
  ...during the beginning stages of our project. The approach of delivering our bacteria directly through the catheter into the bladder would probably be the most e ...could potentially be used to a large range of different pipes to tackle a growing world problem with biofilms we decide to focus on a medical application for
  14 KB (1,894 words) - 13:13, 15 September 2015
• Team:Glasgow/Practices/Bedtimestories
  “You grow bacteria inside its tummy,” he replied. ...ven see them unless you have a special microscope. There are good kinds of bacteria and nasty kinds, though. Do you remember how I always ask you to wash your
  23 KB (3,106 words) - 03:32, 21 November 2015
• Team:Oxford/Delivery
  ...resses and attack from a host’s immune system (in the case of pathogenic bacteria).">biofilm</a> also forms on the outside of the catheter so in our design w ...could potentially be used to a large range of different pipes to tackle a growing world problem with biofilms we decide to focus on a medical application for
  17 KB (2,246 words) - 11:01, 17 September 2015
• Team:Oxford/Test/Practices
  ...2015.igem.org/Team:Oxford/Design">system</a>, we are developing the use of bacteria as living therapeutics to provide an alternative to administering antibioti ...ABR and synthetic biology; and our tools are based around using engineered bacteria as therapeutic agents. The targeted nature of our solution is achieved by b
  28 KB (3,599 words) - 11:01, 17 September 2015
• Team:Glasgow/Design
  ...the bacteria. It is transparent enough to allow the UV-A rays to reach the bacteria, and for their bioluminescence to shine out. ...roth to drop out as easily as possible. Any crevices would allow broth and bacteria to remain and not be flushed out, which could cause problems.</p>
  17 KB (2,118 words) - 03:31, 21 November 2015
• Team:UI Indonesia/pnp
  ...the consument target, most of the respondents agreed if we use engineered bacteria as the active material for our contraceptives. They agreed with our inovati ...re, our products are also used by women. We decide to do this because the bacteria’s biological properties is suitable with the vagina condition. Some peopl
  78 KB (12,133 words) - 20:22, 18 September 2015
• Team:Danzi Kesh 8/Notebook
  ...ass="list-item">Preparation of growth platforms (substrates) for&nbsp; the bacteria -&nbsp; The first platform with two ampicillin and the second one with chlo ...-item">Performing transformation using the Heat Shock method to the E.coli bacteria competents - Type DH5α.</li>
  49 KB (6,726 words) - 09:36, 18 September 2015
• Team:Glasgow/Practices
  ...believed their children were already exposed to a lot of much more harmful bacteria in every day life, so more education for younger kids was definitely needed ...ntainer themselves – which led us to design the removable handle for the bacteria’s release. To read more about this, see our <a href="https://2015.igem.or
  27 KB (3,634 words) - 17:24, 14 November 2015
• Team:WLC-Milwaukee/Practices
  ...and learned the important conditions necessary for doing so. We then took bacteria and isolated their DNA by performing a “mini prep”. </p> ...to understand RFP, which we used in the lab yesterday with our glowing red bacteria! The small scale science that we are performing in the lab this week really
  41 KB (6,551 words) - 03:21, 19 September 2015
• Team:Oxford/Notebook
  <h4>Growth and Culture of Bacteria </h4> ...The inversion in step 6 needs to be done gently so that genomic DNA of the bacteria are not extracted along with the desired plasmid DNA.</li>
  530 KB (37,526 words) - 03:47, 19 September 2015
• Team:Oxford/Protocols
  ...D_600nm reaches 0.4-0.6. It is good to stop at OD = 0.35, as the bacteria are now replicating exponentially i.e. will only take 20 more minutes until <h3>1.6 Growth and Culture of Bacteria</h3>
  80 KB (8,137 words) - 14:47, 14 November 2015
• Team:Oxford/Test/Notebook
  <h4>Growth and Culture of Bacteria </h4> ...The inversion in step 6 needs to be done gently so that genomic DNA of the bacteria are not extracted along with the desired plasmid DNA.</li>
  500 KB (35,542 words) - 16:53, 18 September 2015
• Team:DTU-Denmark/Project/MAGE
  ...myE::beta-neoR </em>and <em>∆amyE::GP35-neoR </em>was shown to be faster growing than the wild type strain.</p> ...e faster growing than the wild type. The mutS::beta was shown to be slower growing than the wild type, this mutant is the one that is best at recombineering.
  80 KB (10,239 words) - 15:12, 9 November 2015
• Team:Yale/notebook
  <h2>Week 5</h2><a href="#" data-reveal-id="week6">Growing and Amplifying</a> ...which the technique is proven to work, to Cyanobacteria and Sinorhizobium bacteria.</p>
  48 KB (7,180 words) - 03:26, 19 September 2015
• Team:WLC-Milwaukee/HumanPractices
  ...and learned the important conditions necessary for doing so. We then took bacteria and isolated their DNA by performing a “mini prep”. ...to understand RFP, which we used in the lab yesterday with our glowing red bacteria! The small scale science that we are performing in the lab this week really
  24 KB (3,835 words) - 06:11, 15 September 2015
• Team:SPSingapore/Anaerobic Promoter
  ...ng pnirB-invasin can invade mammalian cells under anaerobic conditions and bacteria cells transformed with plasmids encoding pnirB-invasin-listeriolysin can in ...sion assay, where results are represented in colony-forming units (CFU) of bacteria successful in invading mammalian cells (Figure 7). Our results show that BL
  30 KB (4,339 words) - 04:21, 17 November 2015
• Team:Vilnius-Lithuania/Application
  ...ed to theoretically incorporate our system in their genetically engineered bacteria.</p> ...in the environmet and live bees, it’s easy to imagine that this kind of bacteria can spread in the dark and get into other species.</p>
  5 KB (743 words) - 10:21, 18 September 2015
• Team:Central Calgary/project
  ...ars itself out via a natural, frequently-occurring cycle, meaning that the bacteria would naturally be cleared out as well. Due to this evidence, a kill switch ...lactic acid are needed to inhibit angiogenesis. The assay would be done by growing cultures with varying levels of lactic acid and lysing them on an in vitro
  18 KB (2,642 words) - 20:39, 24 December 2015
• Team:UCL/Entrepreneurship
  ...rding to a customer’s needs (personalisation) we’re able to leverage a growing body of research to a friendly bacteria, which have been shown to interact with your gut-brain axis, to make you ha
  55 KB (8,255 words) - 15:53, 22 October 2015
• Team:Carnegie Mellon/Notebook
  The colonies on the plate with the T7 YFP without the sites was growing extremely slowly so it was left in the 37C incubator for another night. For ...cultures from previous cultures, with the exception of the YFP transformed bacteria, which was taken from a plate created 5/27/2015.</li>
  72 KB (10,158 words) - 20:59, 20 November 2015
• Revision history of "Editing Team:Oxford/Protocols"
  ...D_600nm reaches 0.4-0.6. It is good to stop at OD = 0.35, as the bacteria are now replicating exponentially i.e. will only take 20 more minutes until <h3>1.6 Growth and Culture of Bacteria</h3>
  75 KB (7,507 words) - 09:40, 15 September 2015
• Team:Oxford/Test/Protocols
  ...D_600nm reaches 0.4-0.6. It is good to stop at OD = 0.35, as the bacteria are now replicating exponentially i.e. will only take 20 more minutes until <h3>1.6 Growth and Culture of Bacteria</h3>
  77 KB (7,823 words) - 20:37, 16 September 2015
• Team:UCSC/Logs
  ...;">Multiple sequence alignment of conserved proteins conserved in Archaea, Bacteria, and Eukaryotes </span></li> ...an style="font-weight: 400;">Prepared 500 mL of LB agar in preparation for growing transformed </span><em><span style="font-weight: 400;">E. coli </span></em>
  123 KB (16,952 words) - 23:53, 17 September 2015
• Team:Hangzhou-H14Z
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,474 words) - 01:53, 19 September 2015
• Team:Kent/Practices
  ...percentage of the current electronics are not renewable and contribute to growing volumes of e-waste. One of the components is copper and other non-renewable <b>4) The charging stations that we proposed would contain bacteria to produce the energy. What are your views on the matter?</b> <br><br>
  48 KB (8,114 words) - 00:45, 19 September 2015
• Team:Reading/Practices
  ...i/fimbriae, so if it say picked up the hyperpilation modification from our bacteria, this could make the pathogen more virulent.</p> ...rms of having a constant light and nutrient supply. It also means that the bacteria have a longer effective life when in the cell as they will not be consuming
  19 KB (3,060 words) - 21:10, 16 September 2015
• Team:Hangzhou-H14Z/Attributions
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:45, 18 September 2015
• Team:Hangzhou-H14Z/Parts
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  102 KB (12,478 words) - 01:48, 19 September 2015
• Team:Hangzhou-H14Z/Collaborations
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:44, 18 September 2015
• Team:Hangzhou-H14Z/Project
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:58, 18 September 2015
• Team:Hangzhou-H14Z/Practices
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:46, 18 September 2015
• Team:Hangzhou-H14Z/Intro
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:57, 18 September 2015
• Team:Hangzhou-H14Z/Team
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 18:59, 18 September 2015
• Team:Hangzhou-H14Z/Modeling
  ...the constant volume of 50mL. Use 0.22μm strainer to filter out the other bacteria, then put into refrigerator of -20°C. </p> ...0;&#160;&#160;&#160;&#160;&#160;(3) Pick bacteria into small colonies from growing strains on the cultivation board, which has been configured with a medium,
  101 KB (12,459 words) - 19:06, 18 September 2015
• Team:Lethbridge HS/Notebook
  ...4 hours, all mites were found to be dead. Pupae showed some signs of black bacteria growth or browning on body. Will need to repeat or find another method of c ...<p>Objective:Determine if the concentration of oxalic acid that kills bacteria will kill bees.<br><br>
  159 KB (13,078 words) - 02:08, 19 September 2015
• Team:OUC-China/Note Book/Lab Journal
  ...resis, then they were transformed into Top 10 cells. There are no colonies growing on the plate. ...nd transformation were down by Cun Wei and Zhuo Pan. There are no colonies growing on the plate.<BR>Cun Wei repeated agarose gel electrophoresis and ligation
  78 KB (9,885 words) - 18:42, 18 September 2015
• Team:HKUST-Rice/TXTL
  ...reading of what nutrients are readily available from the perspective of a growing plant.</p> ...n-fixing, denitrifying, phosphate-solubilizing, and potassium-solubilizing bacteria have been identified (sources). By hooking up our individual nutrient sens
  10 KB (1,420 words) - 23:13, 14 September 2015
• Team:Elan Vital Korea/Team
  ...e explained by science - even the smallest and most invisible things, like bacteria and their methods of communication and infection, which our team has been f ...mwork iGEM has provided. Synthetic biology is a newly emerging yet rapidly growing branch of science, and does not exist in nature yet creates mechanisms of l
  22 KB (3,761 words) - 18:23, 18 September 2015
• Team:UMaryland/HokSok
  <li>2. Does the Hok-Sok cassette restrict the growth of the bacteria it resides in?</li> ...ther or not the maintenance system is effective in preserving a plasmid in bacteria that is not beneficial to its survival, such as the aforementioned RFP.
  16 KB (2,547 words) - 03:57, 19 September 2015
• Team:UNAM-CU/project
  ...aims to induce the production of insulin according to glucose levels. The bacteria are going to be contained in a modular device composed by contention, commu ...as allowing glucose levels’ information to pass through it and reach the bacteria, but this container also aims to prevent bacterial physical contact with th
  20 KB (3,210 words) - 03:53, 19 September 2015
• Team:British Columbia/Growing
  ...to make these bacteria genetically tractable. This included culturing the bacteria on different growth media, testing methods of competence induction, and tra ...i>), the first step was to identify the optimal method of culturing either bacteria. </p>
  25 KB (3,623 words) - 02:07, 19 September 2015
• Team:UNITN-Trento/Results/Proteorhodopsin
  ...containing the blue wavelength, activates proteorhodopsin, thus making the bacteria <strong>survive better anaerobically</strong> and produce <strong>more ATP< ...uid, washing them and autoclaving them, the bottles were ready to host our bacteria!</p>
  28 KB (3,923 words) - 17:00, 18 September 2015
• Team:TU Delft/Notebook
  <p class="lead">Our harmless bacteria produces curli subunits in order to make an inducible biofilm. The curli is ...ith the example of KAN). Cultures were then putted at 37°C at 200 rpm for growing.</p>
  158 KB (22,659 words) - 22:52, 18 September 2015
• Team:York/Business
  <p>The next part is collecting the phosphate from the bacteria in the bioreactor. Engineered Bioreactors have genetically modification the ...companies generating a profit for Engineered Bioreactors. In addition the bacteria can be placed back into the bioreactor ensuring low operation costs.
  30 KB (4,784 words) - 23:39, 18 September 2015
• Team:York/Entrepreneurship
  ...for the whole marketplace. The wastewater industry is one of the fastest growing industries in the world and is estimated to be worth £61.4 billion by 2019 <p>The next part is collecting the phosphate from the bacteria in the bioreactor. Engineered Bioreactors have genetically modified the <i>
  49 KB (7,842 words) - 01:12, 19 September 2015
• Team:Stanford-Brown/PHA
  <p>Since bacteria that naturally synthesize P(3HB) use the plastic as an energy storage mecha ...the cells can continue to grow. The rest of the population would continue growing and producing plastic. The plastic can be recovered from the media by causi
  23 KB (3,737 words) - 03:43, 19 September 2015
• Team:NYMU-Taipei/Practices
  ...all over the world. Common diseases found in potatoes are bacterial wilt, bacteria soft rot, ring rot and late blight. Recently late blight becomes the most s <p>Growing period:<br></p>
  55 KB (8,567 words) - 23:41, 20 November 2015
• Team:IIT Kharagpur/Project
  bacteria, yeast and moulds on your food. It's the diverse repertoire of enzymes ...es is critical for bacterial survival and interactions in natural habitat. Bacteria often take many actions, the decision of which is based upon assesment of i
  20 KB (2,690 words) - 23:32, 20 November 2015
• Team:HKUST-Rice/Application
  ...reading of what nutrients are readily available from the perspective of a growing plant.</p> ...n-fixing, denitrifying, phosphate-solubilizing, and potassium-solubilizing bacteria have been identified (Vessey, 2003, Ngoc Diep & Ngoc Hieu, 2014). By attach
  9 KB (1,401 words) - 13:23, 18 September 2015
• Team:Paris Bettencourt/Design
  ...ufacture a simple and practical way to distribute our engineered yeast and bacteria (See <a href="https://2015.igem.org/Team:Paris_Bettencourt/Project/Manufact <br><br>We believe that a culture of yeast and bacteria that can be grown at home and supplements
  20 KB (3,005 words) - 01:21, 21 November 2015
• Team:elan vital korea/Members
  ...bigger competitors like humans. That’s why we have antibiotic-resistant bacteria. So, it’s very Promethean, like endless swing between victory and defeat ..., we took one step further: let a bacteria tell us if antibiotic-resistant bacteria is found in their neighborhood, using their own communication method, quoru
  24 KB (3,816 words) - 23:11, 18 September 2015
• Team:Vilnius-Lithuania/Measurement
  ...three promoters and GFP gene, were transformed into E. coli DH5α strain. Bacteria, containing the plasmids, were grown overnight and then DNA extraction ensu ...r-left: 5px solid rgb(236,151,31); padding-left: 5px; border-bottom: none">Growing</h3>
  8 KB (1,142 words) - 10:51, 16 September 2015
• Team:elan vital korea/members
  ...bigger competitors like humans. That’s why we have antibiotic-resistant bacteria. So, it’s very Promethean, like endless swing between victory and defeat ..., we took one step further: let a bacteria tell us if antibiotic-resistant bacteria is found in their neighborhood, using their own communication method, quoru
  24 KB (3,816 words) - 22:46, 18 September 2015
• Team:BNU-CHINA/Safety
  ...ovement at the same time, thus preventing the difussion of our engineering bacteria to soil. ...rial colony density artificially and therefore the quantity of engineering bacteria can be maintained in a stable and controllable range.
  10 KB (1,596 words) - 20:09, 18 September 2015
• Team:IIT Kharagpur/project
  ...chemical reactions and microbial actions most commonly by microbes such as bacteria, yeast and moulds. Microbial ...for bacterial survival and interactions in natural habitat. It can be said bacteria takes decisive action based upon assessing local cell densities.</br></br>C
  19 KB (2,501 words) - 06:29, 18 September 2015
• Team:Elan Vital Korea/Members
  ...bigger competitors like humans. That’s why we have antibiotic-resistant bacteria. So, it’s very Promethean, like endless swing between victory and defeat ..., we took one step further: let a bacteria tell us if antibiotic-resistant bacteria is found in their neighborhood, using their own communication method, quoru
  24 KB (3,816 words) - 23:20, 18 September 2015
• Team:CAU China/Notebook
  ...fire in the lab, how to deal with the poisonous chemical and the dangerous bacteria.</p> <p>There were many colonies growing up on the plate</p>
  7 KB (1,298 words) - 13:14, 6 September 2015
• Team:CAU China/Experiments
  ...fire in the lab, how to deal with the poisonous chemical and the dangerous bacteria.</p> <p>There were many colonies growing up on the plate</p>
  7 KB (1,293 words) - 17:53, 17 September 2015
• Team:Oxford/Test/Project
  ...f antimicrobial resistance. The aim of our project is to contribute to the growing body of research into providing a solution to the threat of antimicrobial r ...Although bacteria are generally thought of as causing infection, most bacteria that live inside the human body are non-pathogenic and some of them can be
  23 KB (2,734 words) - 14:15, 24 August 2015
• Team:Paris Bettencourt/Project/Continuity
  ...allow the manufacturer to detect contamination, and check that what he is growing is exactly what he wants to grow.</li> ...ble to make a strain that fullfills its nutrient-producing functions while growing as fast as the wild type, so we found a workaround: the cells that people u
  31 KB (5,166 words) - 16:08, 15 October 2015
• Team:IIT Kharagpur
  ...y human being.</br></br> The major challenges that mankind faces today are growing population, rapidly depleting resources and inequitable distribution of wea It is known, for quite some time now, that bacteria possess cell to cell communication capability. The communication is stimula
  17 KB (2,373 words) - 23:31, 20 November 2015
• Team:Austin UTexas/Practices
  ...gy can lead to technologies such as bacterial photography, tumor-targeting bacteria, and biofuels (Sleight, 2010). However, in order for a genetically enhanced ...for digestive health (Ruder 2011). By ensuring that genetically modified bacteria are as stable as possible, the risks of synthetic biology therapies can be
  8 KB (1,193 words) - 03:51, 19 September 2015
• Team:Hamilton McMaster/blog/2015-08-24
  ...ntaining growth medium for bacteria (a.k.a. this is the world in which our bacteria obtain their nutrients from). It’s a barely-clumpy powder in solid form, ...ification agent. These are made in common but disposable petri dishes. The bacteria can be spread and streaked and picked from these plates (more on this in la
  16 KB (2,764 words) - 07:33, 18 September 2015
• Team:WLC-Milwaukee/Modeling
  ...e unable to form a complete antibiotic-efflux protein complex. As a result bacteria without a functioning <i>tolC</i> gene will show an increased sensitivity t ...project; downregulation (or stopping transcription) would likely make the bacteria hypersensistive to the antibiotics, and an upregulation could increase the
  14 KB (2,236 words) - 00:51, 19 September 2015
• Team:Cornell/notebook
  ...was then ligated with H backbone (pSB1C3) and transformed. Had some issues growing cultures with ligations. We are excited to start cloning! ...e cultures of two strains of <i>Flavobacterium</i>, and measured growth of bacteria with spectrophotometer. In addition, daily OD readings were taken to determ
  45 KB (4,129 words) - 02:19, 19 September 2015
• Team:Oxford/Project
  ...f antimicrobial resistance. The aim of our project is to contribute to the growing body of research into providing a solution to the threat of antimicrobial r ...Although bacteria are generally thought of as causing infection, most bacteria that live inside the human body are non-pathogenic and some of them can be
  9 KB (1,073 words) - 10:13, 21 August 2015
• Team:Stanford-Brown/Cellulose
  ...nation - When producing cellulose in large vats, contamination by fungi or bacteria can become a major issue.</p> <li>You can also try adding an antifungal that will not act upon bacteria to the medium.
  16 KB (2,346 words) - 03:44, 19 September 2015
• Team:Slovenia HS/Practices
  using bacteria yet in Slovenia and our project is unique in that respect, so we have decid ...pool, has to closely observe all of the factors that could influence their bacteria. The computer control system is constently measuring the speed of the mixin
  24 KB (3,713 words) - 02:19, 19 September 2015