Team:KU Leuven/Project

From 2013.igem.org

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<a href="https://2013.igem.org/Team:KU_Leuven/Wetlab" title="Team:KU_leuven">Wetlab</a>
 
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<a href="https://2013.igem.org/Team:KU_Leuven/Modeling" title="Team:KU_leuven">Modeling</a>
 
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<a href="https://2013.igem.org/Team:KU_Leuven/Project/Aphid_Biology" title="Team:KU_leuven">Aphid Biology</a>
 
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Our goal is to reduce the damage aphids invoke on our agricultural industry on a sustainable way. The current solution is almost always using huge amounts of insecticides , which damages the ecosystem in several ways. First of all, the indiscriminatory weakening of insects means the useful insects for agriculture are also affected. Besides that the pesticides accumulate in higher organisms that eat the insects.
 
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We want to acquire this by using the aphid’s own alarm pheromones (β-farnesene) to scare them off. On top of that we want to attract aphid predators (by using methyl salicylate) in order to make sure the aphids are thoroughly removed.
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We have established what might be possible hurdles in introducing this system in the agricultural industry. Firstly we have to make sure the strain on the cell’s metabolism is limited. Secondly we have to take into account that aphids habituate to constitutive expression of β-farnese quite rapidly . Thirdly we do not want to attract the predating insects when they are not needed, since we want to make it as advantageous for them as possible. Fourthly methyl salicylate has an effect on a lot of – not always welcomed – insects.
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To reduce the burden on the cell’s metabolism and attract predators only when needed we can produce methyl salicylate in response to an external signal that indicates the presence of aphids. When we produce methyl salicylate the possible habituation of aphids to the β-farnese does not become a serious problem because they can no longer use it to warn eachother for the presence of predators and thus they become more vulnerable to them.
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To avoid habituation of the aphids we can choose an oscillating production of β-farnese, which requires a colony-wide synchronized oscillating system.
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  <h3 class="bg-green"><i>E. coligy</i>: Plants with BanAphids</h3>
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<b>Our goal is to create a sustainable system to reduce the damage that aphids cause to our agricultural industry and reduce the use of insecticides.</b> <br/><br/>
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The current solution usually requires huge amounts of insecticides, damaging ecosystems in several ways. First, the indiscriminate weakening of insects means that beneficial insects (pollinators, ...) are also affected. Second, insecticides affect vertebrates, including humans, damaging our health. Third, insecticide residues (catabolites) accumulate in each food-chain. The highest organism, be it humans or for example predatory birds, will end up with potentially high levels of residues and their negative effects.<br/>
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We aim to offer an <b>effective and sustainable alternative for insecticides.</b> Our modified <I>E. coli</I>, the <B>BanAphids</B> (meaning ‘to ban aphids’ as well as provide plants with ‘benefits’), would produce the aphid’s own alarm pheromone, <b>E-β-farnesene (EBF)</b>, to repel them off the plant. On top of that we want to attract aphid predators such as the ladybug via the production of <b>Methyl Salicylate (MeS)</b>, a phytohormone, by our BanAphids. This way we ensure aphids are thoroughly removed from the plant.
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    <p align = "justify"> We devised <b>two different systems</b> that might use these molecules. We did this because of response we received from both private end users and the general public.
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<br/><br/>In the first system, our <b><a href="https://2013.igem.org/Team:KU_Leuven/Project/HoneydewSystem"> honeydew system</a></b>, we spray our BanAphids directly onto the plants. In this system our BanAphids will <b>only produce MeS when aphids are present</b> because they are sensitive to the high concentrations of glucose found in the honeydew produced by the aphids. This interaction minimises the burden on the plant’s metabolism, attracts predators only when needed and avoids aphid habituation.</p>
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  <img src="https://static.igem.org/mediawiki/2013/0/07/Tekeningproject.jpg" alt="banaphids">
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    <p><b>Honeydew System</b><br/> Shows our BanAphids producing EBF to get rid of aphids and MeS to attract ladybugs.</p>
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      <h3>Honeydew system</h3>
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We devised a second system with input from the private end user: the <b><a href="https://2013.igem.org/Team:KU_Leuven/Project/StickerSystem">sticker system</a></b>.
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Our second method starts from the principle that the <b>BanAphids</b> may not come in direct contact with the plants because of safety and ethical concerns. For this we turned to the <a href="https://2012.igem.org/Team:Groningen/Sticker">sticker model of the Groningen 2012 iGEM team</a> to use as a container. The sticker is composed of a plastic film, whose pores are too small for the BanAphids to pass, but large enough so that the volatile pheromones it produces still pass. The Groningen 2012 iGEM team has already investigated the biosafety of this sticker. However this means the BanAphids lose direct contact with the honeydew and the Honeydew System fails. To overcome this and permit this containment, we designed our <b><a href="https://2013.igem.org/Team:KU_Leuven/Project/Oscillator/Description">own oscillating system</a></b> so that there is an <b>alternating MeS and EBF production</b>.<br/><br/>
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Finally we want to define the impact of both these systems on the ecosystem. In collaboration with the relevant industries we performed various plant and insect experiments for the <b><i><a href="https://2013.igem.org/Team:KU_Leuven/Project/Ecological/wetlab">E. coligy</a></b></i> part of our project. This allows us to demonstrate the effect of our systems on the ecosystem.<br/></p>
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    <img src="https://static.igem.org/mediawiki/2013/5/5d/Stickermodelverkleind.png">
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    <p><b>Sticker system</b><br/> How the sticker could be placed in a rose bush to repel aphids and attract ladybugs.</p>
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    <a href="https://2013.igem.org/Team:KU_Leuven/Project/Aphid_Background">
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    <h3>Aphid Background</h3>
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    <p>Crashcourse in aphid biology</p>
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    <h3>Honeydew System</h3> </a>
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    <p>Our BanAphids react to honeydew</p>
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    <p>BanAphid population oscillates!</p>
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    <a href="https://2013.igem.org/Team:KU_Leuven/Project/E.coligy">
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    <h3><i>E. coligy</i></h3>
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    <p>Validating the BanAphids in vivo</p>
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    <h3>Parts</h3> </a>
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    <p>BioBrick 'm all!</p>
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    <h3>Data Page</h3> </a>
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    <p>All our achievements on one small page!</p>
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Latest revision as of 01:21, 29 October 2013

iGem

Secret garden

Congratulations! You've found our secret garden! Follow the instructions below and win a great prize at the World jamboree!


  • A video shows that two of our team members are having great fun at our favourite company. Do you know the name of the second member that appears in the video?
  • For one of our models we had to do very extensive computations. To prevent our own computers from overheating and to keep the temperature in our iGEM room at a normal level, we used a supercomputer. Which centre maintains this supercomputer? (Dutch abbreviation)
  • We organised a symposium with a debate, some seminars and 2 iGEM project presentations. An iGEM team came all the way from the Netherlands to present their project. What is the name of their city?

Now put all of these in this URL:https://2013.igem.org/Team:KU_Leuven/(firstname)(abbreviation)(city), (loose the brackets and put everything in lowercase) and follow the very last instruction to get your special jamboree prize!

tree ladybugcartoon

Our goal is to create a sustainable system to reduce the damage that aphids cause to our agricultural industry and reduce the use of insecticides.

The current solution usually requires huge amounts of insecticides, damaging ecosystems in several ways. First, the indiscriminate weakening of insects means that beneficial insects (pollinators, ...) are also affected. Second, insecticides affect vertebrates, including humans, damaging our health. Third, insecticide residues (catabolites) accumulate in each food-chain. The highest organism, be it humans or for example predatory birds, will end up with potentially high levels of residues and their negative effects.
We aim to offer an effective and sustainable alternative for insecticides. Our modified E. coli, the BanAphids (meaning ‘to ban aphids’ as well as provide plants with ‘benefits’), would produce the aphid’s own alarm pheromone, E-β-farnesene (EBF), to repel them off the plant. On top of that we want to attract aphid predators such as the ladybug via the production of Methyl Salicylate (MeS), a phytohormone, by our BanAphids. This way we ensure aphids are thoroughly removed from the plant.

We devised two different systems that might use these molecules. We did this because of response we received from both private end users and the general public.

In the first system, our honeydew system, we spray our BanAphids directly onto the plants. In this system our BanAphids will only produce MeS when aphids are present because they are sensitive to the high concentrations of glucose found in the honeydew produced by the aphids. This interaction minimises the burden on the plant’s metabolism, attracts predators only when needed and avoids aphid habituation.

banaphids

Honeydew System
Shows our BanAphids producing EBF to get rid of aphids and MeS to attract ladybugs.

Honeydew system


We devised a second system with input from the private end user: the sticker system. Our second method starts from the principle that the BanAphids may not come in direct contact with the plants because of safety and ethical concerns. For this we turned to the sticker model of the Groningen 2012 iGEM team to use as a container. The sticker is composed of a plastic film, whose pores are too small for the BanAphids to pass, but large enough so that the volatile pheromones it produces still pass. The Groningen 2012 iGEM team has already investigated the biosafety of this sticker. However this means the BanAphids lose direct contact with the honeydew and the Honeydew System fails. To overcome this and permit this containment, we designed our own oscillating system so that there is an alternating MeS and EBF production.

Finally we want to define the impact of both these systems on the ecosystem. In collaboration with the relevant industries we performed various plant and insect experiments for the E. coligy part of our project. This allows us to demonstrate the effect of our systems on the ecosystem.

Sticker system
How the sticker could be placed in a rose bush to repel aphids and attract ladybugs.

Aphid Background

Crashcourse in aphid biology

Honeydew System

Our BanAphids react to honeydew

Sticker System

BanAphid population oscillates!

E. coligy

Validating the BanAphids in vivo

Parts

BioBrick 'm all!

Data Page

All our achievements on one small page!