SYNENERGENE Calls for Proposals/Rathenau Instituut

From 2014.igem.org

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<h3>DRAFT</h3>
<h2>Take your iGEM Project to the next level!</h2>
<h2>Take your iGEM Project to the next level!</h2>
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     <h3>Scenarios</h3>
     <h3>Scenarios</h3>
     <p>An important step in the development of application scenarios is to identify and specify the practices and conditions in which particular SynBio applications envisaged by your team might be produced and used. How does these practices look like, who is involved in what role, and how will these practices be changed and affected by the new applications? Knowledge about the experiences and visions of actors involved in these practices is vital for the elaboration of future application scenarios. Some iGEM teams have elaborated in their projects ideas about the future application of their work in ways that exemplify our notion of "Application Scenario". Two interesting examples are described below. (You may find other, more recent examples from other teams on the iGEM website.)</p>
     <p>An important step in the development of application scenarios is to identify and specify the practices and conditions in which particular SynBio applications envisaged by your team might be produced and used. How does these practices look like, who is involved in what role, and how will these practices be changed and affected by the new applications? Knowledge about the experiences and visions of actors involved in these practices is vital for the elaboration of future application scenarios. Some iGEM teams have elaborated in their projects ideas about the future application of their work in ways that exemplify our notion of "Application Scenario". Two interesting examples are described below. (You may find other, more recent examples from other teams on the iGEM website.)</p>
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     <p>AgrEcoli</p>
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     <h4><a href="https://2010.igem.org/Team:BCCS-Bristol">AgrEcoli: saving the world one field at a time</a></h4>
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     <p>AuxIn</p>
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    <p>The Bristol team worked on a device based on modified E.coli bacteria that is able to detect and signal the presence of nitrates in soil. Encapsulated in small beads, agrEcoli bacteria may be mixed with seeds and spread simultaneously on the land. The bacteria express fluorescent signals upon nutrient detection and thus may allow farmers to map soil nutrient content of their fields and optimize their fertilizer use. Applied in this way, agrEcoli bacteria may help to reduce excess fertilizer use to the benefit of both farmers and the environment.</p>
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     <p>Based on wet lab and modelling work, the team produced a functioning prototype, which in the lab could successfuly detect and react to nutrient levels in the soil. In their human practice work the team further specified the hypothetical properties that their product should possess for a successful market introduction, using predictions based on their prototype and information  about how arable farmers might wish to use it. The team defined smaller-scale farmers as the target market for their product and accordingly specified the engineering requirements that the product would have to satisfy, given established practices of farming and important conditions of cost and safety. The team also compared their approach to already available alternative methods to estimate nutrient needs of arable land, such us satellite imaging technology.</p>
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    <p>Thus the team ended with a final specification for how their product would work, the form it would take and the trials and tests that it would have to pass. Based on this application scenario the team decided to focus their human practice work on issues of public perception in order to find out how to get public support for their hypothetical product. The team reasoned that without public support their product probably might not be developed and introduced on the market. The team translated findings from public perception studies into the design for a product information leaflet that might be used in a public information and awareness raising campaign. Finally the team considered some of the legislative and regulatory hurdles that would have to be considered in the process of product development.</p>
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    <h4><a href="https://2011.igem.org/Team:Imperial_College_London">Project AuxIn: engineering bacteria to help fight soil erosion</a></h4>
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    <p>The ICL team has engineered E.coli bacteria to accelerate plant root development. The bacteria were designed to respond to a chemical released by roots of germinating seed, whereby the bacteria are actively taken up by the roots. As a second step, the bacteria were desiged to express auxin, a plant hormone which promotes root formation. Thirdly, a safety mechanism was designed to prevent horizontal gene transfer from the modified bacteria to existing soil bacteria. By sowing seeds coated with the modified bacteria in areas at risk of erosion, plants may increase the stability of soil as a result of enhanced root growth. In this way engineered E.coli bacteria may help to prevent soil erosion and desertification, a massive problem in arid areas of the world.</p>
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    <p>Human practice work was seen by the team as crucial for the framing of their project and to ensure that the design of the AuxIn system would respect all relevant social, ethical and legal issues. One important aspect considered by the team were the advantages of an approach using engineered bacteria rather than engineered plants. Existing approaches to improve drought-tolerant crop plants via genetic engineering might be a viable alternative. However, considering a world-wide problem such as desertification will require a lot of different plant species to be engineered and some of these species may be very difficult to engineer genetically. Using a bacterial delivery system based on naturally existing symbiosis between bacteria and plants might help to overcome these difficulties.</p>
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    <p>While the AuxIn project remained at a proof-of-concept stage, the team undertook a number of activities with the aim to develop a future implementation plan for their product, taking into account specifications of seed coat design, local conditions and practices of planting in regions where the product will have to be implemented, issues of patenting, and environmental safety requirements. A special and highly important component of the team’s human practice work were numerous consultations during the early design stages of the project with plant scientists, ecologists, social scientists and NGO's, including two discussion panels and a visit at Syngenta, a company specialising in agricultural products and research. The team also undertook several outreach activities, including the writing of a script set in a future world where the technology designed in the project has been widely implemented.</p>
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     <p>While application scenarios focus on the prospects and challenges for innovation and related regulatory concerns in regard to risks and ownership, "Techno-Moral Scenarios" highlight the wider transformative potential of future applications of synthetic biology in society. Techno-moral scenarios explore the ways in which new technologies may challenge and shape what we want, how we relate to each other, and how we relate to the world. Thus they invite audiences to imagine and appraise ways in which particular SynBio applications might change our world, our ideas, values and ideals. Our notion of techno-moral scenarios is exemplified by a series of short stories ('vignettes'), including a scenario written by the UCL 2012 team, published on the website of the Rathenau Instituut.</p>
     <p>While application scenarios focus on the prospects and challenges for innovation and related regulatory concerns in regard to risks and ownership, "Techno-Moral Scenarios" highlight the wider transformative potential of future applications of synthetic biology in society. Techno-moral scenarios explore the ways in which new technologies may challenge and shape what we want, how we relate to each other, and how we relate to the world. Thus they invite audiences to imagine and appraise ways in which particular SynBio applications might change our world, our ideas, values and ideals. Our notion of techno-moral scenarios is exemplified by a series of short stories ('vignettes'), including a scenario written by the UCL 2012 team, published on the website of the Rathenau Instituut.</p>
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Revision as of 18:36, 3 April 2014

DRAFT

Take your iGEM Project to the next level!

Partner: Rathenau Instituut

Due date: May 01, 2014
Questions: contact Virgil Rerimassie, v.rerimassie AT rathenau.nl

Is your iGEM team looking for an exciting human practices challenge? Would you like to take the potential of your project to the next level by exploring it with various stakeholders? And would you like to get support and funding throughout this entire process? If your answer is "yes" your team just might be an excellent candidate for our SYNENERGENE call.

Introduction

The Rathenau Instituut is partner of SYNENERGENE, a four-year collaborative project funded by the European Commission, aimed at fostering Responsible Research and Innovation in synthetic biology (SynBio). In order to examine how SynBio can be optimally embedded in society, the Rathenau Instituut and its SYNENERGENE partners aim to conduct real-time technology assessments of potential SynBio applications. To this end, we seek collaboration with iGEM teams and focus on promising ideas for SynBio applications as developed in iGEM projects. Teams can dedicate their policy and practices (formerly: human practices) work to a process of real-time technology assessment and will be supported by SYNENERGENE partners throughout the process. Teams can apply for support and funding by submitting to us proposals.

Rewards and support

Awarded teams will receive €5.000 each and be assisted in their work by SYNENERGENE partners, providing them an excellent way to work on the policy and practices dimension of their project through real-time technology assessment and to enhance the overall quality of their project.

Requirements

Selected iGEM teams will have to contribute in their Policy & Practices work to a process of real-time technology assessment by elaborating two different kinds of future scenarios relating to SynBio applications envisaged by the teams:

  1. Application scenarios

    Application scenarios offer detailed and realistic descriptions of how SynBio ideas can lead to actual applications in society, including: design criteria for the products proposed, target producers and users of the products, the needs and costs involved, legal issues of patenting, regulatory requirements, potential safety, social and ethical implications, and available or conceivable alternatives.

  2. Techno-moral scenarios

    A techno-moral scenario is a tool to stimulate imagination, reflection and debate about ways in which SynBio applications may transform our society through wider impacts, including ethical, legal and social issues.

SYNENERGENE partners will take up the scenarios as a starting point for an interactive process of technology assessment, involving a variety of stakeholders and iGEM team members in workshop settings with the aim to develop socially robust agendas for SynBio innovation. Scenarios will also be used by SYNENERGENE partners as a tool in organizing public debates on SynBio futures. For more information about the kind of scenarios that selected iGEM teams will have to deliver, click here*.

Themes

For this first call we are looking in particular for projects dedicated to antibiotics production, the use of cyanobacteria as a platform, and the use of SynBio for conservation. We hope for proposals from teams in the Health and Medicine, Energy, and Environment tracks, but also from teams in the Policy and Practices, and Entrepreneurship tracks. Proposals relating to the three themes are given special preference, but ideas for other themes are also more than welcome!

  1. Antibiotics – Resistance to antibiotics is becoming an increasing public health concern. SynBio may make valuable contributions to addressing this challenge. For instance, by developing micro-organisms that produce novel antibiotics.
  2. Cyanobacteria – SynBio researchers have high hopes that cyanobacteria hold the potential to become a new sustainable platform to produce biofuels and other useful substances. Do Cyanobacteria have the potential to become an important platform for iGEM as well?
  3. Conservation – Recently, conservationists and synthetic biologists have started joining hands and exploring possibilities. One of the ideas is using SynBio to tackle ocean dead zones, where marine life has been killed by algal blooms. How could iGEM contribute to ideas for nature conservation?

Proposal and application

Interested iGEM teams may submit a proposal (2 page A4, one thousand words maximum), including:

  1. The SynBio design
  2. Potential application of the SynBio design
  3. An indication of practices, actors, regulations and impacts that will be addressed in application and techno-moral scenarios.

Please send your proposal to hq (AT) igem.org by May 01, 2014.

More information

If you would like to receive more information please contact Virgil Rerimassie at the Rathenau Instituut: v.rerimassie (AT) rathenau.nl. For more information about the envisaged process of real time technology assessment click here #.

"REAL TIME TECHNOLOGY ASSESSMENT" BOX GOES HERE