Difference between revisions of "Team:DTU-Denmark/Attributions"

 
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<h2>Team members</h2>
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<p>I was involved with planning and execution of the Biobrick Tutorial. Have been helping in contacting schools for the elementary school project and doing the presentations. Mostly, though, I have been involved in the mycolab and the overall work with the fungi: Determining ideal substrates and conditions for the bricks to grow and protoplastation and transformation of the fungi. </p>
+
<p>I was involved with the planning and execution of the Biobrick Tutorial. Have been helping in contacting schools for the elementary school project and doing the presentations. Mostly, though, I have been involved in the mycolab and the overall work with the fungi: Determining ideal substrates and conditions for the bricks to grow as well as doing protoplastations and transformations of the fungi. </p>
 
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<p>Initially, my involvement has been administrative in nature; planning meetings, brainstorming sessions, collaborations and the BioBrick tutorial. Since then my main occupation has been the synthetic biology of the project, which entails a lot of (re)designing constructs and lab work (including the Interlab Study). Additionally, as team leader I’ve interacted a lot with the other arms of the project to discuss all sort of details and trying to keep things coherent.</p>
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<p>Initially, my involvement has been administrative in nature; planning meetings, brainstorming sessions, collaborations and the BioBrick tutorial. Since then, my main occupation has been the synthetic biology of the project, which entails a lot of (re)designing constructs and lab work (including the Interlab Study). Additionally, as team leader, I’ve interacted a lot with the other arms of the project to discuss all sort of details and trying to keep things coherent.</p>
 
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<p>I have been heavily involved with the creation of the high school iGEM team (CHSS) together with Tenna. In addition to this, I have been in charge of contact with Ecovative Design and helped with presenting in the elementary school project.
 
<p>I have been heavily involved with the creation of the high school iGEM team (CHSS) together with Tenna. In addition to this, I have been in charge of contact with Ecovative Design and helped with presenting in the elementary school project.
With regards to lab work, I have been working together with David, Joen and Tenna in the synthlab with the assembling of BioBricks.</p>
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With regards to lab work, I have been working together with David, Joen and Tenna in the synthlab with the assembly of BioBricks.</p>
  
 
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<p>In the beginning of the project, I organized a cabin trip for the team to do some team building, and later on, I’ve been working on analyzing the growth of the fungi including both some image analysis and creating a model that simulates the microscopic hyphal growth. Furthermore, I have been assisting with the design of the wiki in regards to creating some of the graphics and other aspects.</p>
+
<p>In the beginning of the project, I organized a cabin trip for the team to do some team building, and later on, I’ve been working on analyzing the growth of the fungus
 +
including both some image analysis and creating a model that simulates the microscopic hyphal growth. Furthermore, I have been assisting with the design of the wiki in regards to creating some of the graphics and other aspects.</p>
 
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<p>My early involvement in the project was mainly about administrative work and planning some team building activities. I got involved in mechanical testing which led me to become the team's’ favourite fabricator. I made a budget hydraulic press and supplied the bio-folks with welded inoculator boxes until we decided that silicone ice-cube trace were better(they are). After designing our “brick” design, it was sent on to mechanical simulation. Lately I’ve been doing compression tests of the fungi and will be designing and conducting tension tests in order to try and get young's modulus of the fungi. </p>
+
<p>My early involvement in the project was mainly about administrative work and planning some team building activities. I got involved in mechanical testing which led me to become the team's’ favorite fabricator. I made a budget hydraulic press and supplied the bio-folks with welded inoculator boxes until we decided that silicone ice-cube trays were better(they are). After designing our “brick” design, it was sent on to mechanical simulation. Lately, I’ve been doing compression tests of the fungus and will be designing and conducting tension tests in order to try to get Young's modulus of the fungus. </p>
 
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               <div class="member-text">
<p>In the start I focused on ensuring that we chose a project, e.g. plan and book. Together with Mathias I looked into different types of growth models. After looking at many different types, the coupling between model and reality was not as well-studied as hoped. I started working on modelling structural mechanics for the final structure, as a test of realistic conditions. I also grew fungi under different conditions since MycoLab had some periods with very few people.</p>
+
<p>In the start I focused on ensuring that we chose a project, e.g. plan and book. Together with Mathias, I looked into different types of growth models. After looking at many different types, the coupling between model and reality was not as well-studied as hoped. I started working on modeling structural mechanics for the final structure as a test of realistic conditions. I also grew fungi under different conditions since MycoLab had some periods with very few people.</p>
  
 
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<p>My involvement in the project has mainly been in the modelling part of the project. Particularly most of my time have been invested into statistical modelling as well as creating the experimental designs regarding compressive strength experiments. Furthermore my involvement also included initial attempts in creating a growth model of the fungi via a hidden markov model approach.  </p>  
+
<p>My involvement in the project has mainly been in the modeling part of the project. Particularly most of my time has been invested into statistical modeling as well as creating the experimental designs regarding compressive strength experiments. Furthermore, my involvement also included initial attempts in creating a growth model of the fungi via a hidden markov model approach.  </p>  
 
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               <div class="member-text">
<p>During this project, I’ve been mostly placing my energy in Human Practises where my main focus has been the collaboration with KU and Exeter.  </p>
+
<p>During this project, I’ve mostly been placing my energy in Human Practices where my main focus has been the collaboration with KU and Exeter. My competences in chemistry have been put mostly in consulting throughout the project.  </p>
 
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<p>Early on, my main focus was increasing the strength of the material, which has been the main drive in creating the statistical model. I’ve also worked on collection of data, such as structural data, and design of experiments. I’ve worked on creating a simple growth model of fungi, based on existing literature. This model can describe how fungi grows on a meso level, which means that its measurable quantity is explicitly density of mycelium. I’ve also been a part of creating the statistical model, and helped gather structural data of the samples.    </p>
+
<p>Early on, my main focus was increasing the strength of the material, which has been the main drive in creating the statistical model. I’ve also worked on the collection of data, such as structural data, and design of experiments. I’ve worked on creating a simple growth model of fungi based on existing literature. This model can describe how fungi grow on a meso level, which means that its measurable quantity is explicitly density of mycelium. I’ve also been a part of creating the statistical model and helped gather structural data of the samples.    </p>
 
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<p>During the first three months I focused in the economy group, where I was writing funding applications, creating budgets and booking accomodation and flights for the whole team. Then, I was part of the mycolab, where I carried out experiments related to fungi biology. I have been involved in culturing fungi, generating protoplasts, transforming fungi and other lab activities. Also, I have been in touch with several PhDs at the bioengineering department that have provided us with knowledge to continue with our project.</p>
+
<p>During the first three months I focused in the economy group, where I was writing funding applications, creating budgets and booking accommodation and flights for the whole team. Then, I was part of the mycolab, where I carried out experiments related to fungal biology. I have been involved in culturing fungi, generating protoplasts, transforming fungi and other lab activities. Also, I have been in touch with several PhDs at the bioengineering department that have provided us with knowledge to continue with our project.</p>
 
   
 
   
 
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<h2>Instructors</h2>
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<p>
 
<b>Christopher Workman</b><br>
 
<b>Christopher Workman</b><br>
Chris has been the supervisor for the DTU Biobuilders since the beginning, and is always ready to answer any questions, be it about iGEM or science. He has done a lot for our team. We would not be the well-oiled machine we are today if not for him,  and we would probably be sitting in a corner crying if it wasn’t for his guidance.
+
Chris has been the supervisor for the DTU Biobuilders since the beginning and is always ready to answer any questions, be it about iGEM or science. He has done a lot for our team. We would not be the well-oiled machine we are today if not for him,  and we would probably be sitting in a corner crying if it wasn’t for his guidance.
 
</p><p>
 
</p><p>
  
 
<b>Kyle Rothschild-Mancinelli</b><br>
 
<b>Kyle Rothschild-Mancinelli</b><br>
As an ex-participant of iGEM and Ph.d. in fungi, Kyle not only knew when to push us to keep up with the time-schedule, but he always pushed us to factually justify anything we did for our project. His drive and expectation made us want to do better and he was the perfect second-in-command to Chris Workman.
+
As an iGEM alumnus and PhD student working with fungi, Kyle not only knew when to push us to keep up with the time-schedule, but he always pushed us to factually justify anything we did for our project. His drive and expectation made us want to do better and he was the perfect second-in-command to Chris Workman.
  
 
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<h2  style="color:#FFA257;">Project Design</h2>
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<b>Lynn J. Rothschild,  Evolutionary biologist and astrobiologist at NASA's Ames Research Center</b><br>
 +
Our project goals were developed with Lynn after hearing her ideas for mycotecture on Mars in a presentation at DTU in the spring this year. Therefore, key project ideas and goals were provided to us from Lynn and we were encouraged to collaborate and complement our efforts with the Stanford-Brown-RISD team. 
 +
As the supervisor of the Stanford-Brown-RISD team and mother of Kyle, Lynn was the connecting point of both our projects. She had a strong vision for a two-parted project and managed successfully to convey the possibilities to us. Even though she is across the world, she has managed to visit us three times to guide us.
 +
</p>
 +
</div>
 +
<p>
 +
<b>Mikako Sasa, Researcher at Novozymes</b><br>
 +
Helped with direction of the project.
 +
</p>
 +
<p>
 +
<b>Sara Landwik, Researcher at Novozymes</b><br>
 +
Helped with the direction of the project
 +
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<h2>Synthlab</h2>
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</p><p>
  
<b>Philip george hau sørensen, DTU Biobuilders 2017</b><br>
+
<b>Philip George Hau Sørensen, DTU Biobuilders 2017</b><br>
 
Helped immensely with designing, ordering and procecuting different protocols. He also helped a lot with our Biobrick tutorial.
 
Helped immensely with designing, ordering and procecuting different protocols. He also helped a lot with our Biobrick tutorial.
  
</p><p>
+
</p>
  
 +
 +
<p>
 
<b>Chrysillis Magaard Polhaus, DTU Biobuilders 2017</b><br>
 
<b>Chrysillis Magaard Polhaus, DTU Biobuilders 2017</b><br>
Helped in submitting parts and helped with the laboratolriel part of our Biobrick tutorial.
+
Helped in submitting parts and helped with the laboratorial part of our Biobrick tutorial.
 
+
</p><p>
+
  
 +
</p>
 +
<p>
 
<b>Cathrine Agnete Larsen, DTU Biobuilders 2017</b><br>
 
<b>Cathrine Agnete Larsen, DTU Biobuilders 2017</b><br>
 
Helped in submitting parts.
 
Helped in submitting parts.
  
 +
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</p><p>
+
</p></div><p>
 
+
 
<b>Aleksander Moldt Haack, DTU Biobuilders 2017</b><br>
 
<b>Aleksander Moldt Haack, DTU Biobuilders 2017</b><br>
 
Helped with the Biobrick tutorial.
 
Helped with the Biobrick tutorial.
 +
 
</p><p>
 
</p><p>
  
 
<b>Rasmus John Nordman Frandsen, DTU Bioengineering</b><br>
 
<b>Rasmus John Nordman Frandsen, DTU Bioengineering</b><br>
  gave feedback regarding cloning-strategies and colony PCR in <i>A. oryzae</i>.
+
  Gave feedback regarding cloning-strategies and colony PCR in <i>A. oryzae</i>.
  
 
</p><p>
 
</p><p>
 
<b> Anna Joensen, DTU Bioengineering</b><br>
 
<b> Anna Joensen, DTU Bioengineering</b><br>
 
Helped with sending the submitted parts.
 
Helped with sending the submitted parts.
 +
 +
 +
</p>
 +
 +
<p>
 +
<b>Jens Preben Morth, Professor at DTU bioengineering</b><br>
 +
We coincidentally had several conversations with Preben, where we discussed our challenges in the laboratory work. He gave us good sparring on our ideas and inspired solutions to some of our problems.
 +
 +
 +
</p>
 +
 +
<p>
 +
<b>Abigail Sison, Laboratory Technician and Ambassador to Australasia at IGEM</b><br>
 +
Abigail attended our BioBrick tutorial, where she shared valuable information and advice with the participants. She has also helped Synthlab clarify some doubts with respect to the rules and guidelines of the iGEM competition.
  
  
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<h2>Mycolab</h2>
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<p>
 
<p>
 
<b>Ecovative Design</b><br>
 
<b>Ecovative Design</b><br>
Ecovative Design is a New York based company that provided both inspiration and guidance to mycolab. We collaborated with Damen Schaak, an experienced senior research scientist and project manager. As part of the collaboration, he supplied a protoplastation protocol and strains of Ecovative’s <i>Ganoderma</i>, and helped us adapting the protocol.
+
Ecovative Design is a New York based company that provided both inspiration and guidance to Mycolab. We collaborated with Damen Schaak, an experienced senior research scientist and project manager. As part of the collaboration, he supplied a protoplastation protocol and strains of Ecovative’s <i>Ganoderma</i>, and helped us adapting the protocol.
 
</p>
 
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<p>
 
<p>
  
 
<b>Mycoworks</b><br>
 
<b>Mycoworks</b><br>
As they produce alternative and sustainable biomaterials using fungi, this San-Francisco-based startup was as well a good source of inspiration for our project.  
+
This San-Francisco-based startup, who produce alternative and sustainable biomaterials using fungi, was also a good source of inspiration for our project.  
  
 
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<b>Fungal Genetics Stock Center</b><br>
 
<b>Fungal Genetics Stock Center</b><br>
 
Center based in the USA that preserves fungal strains used in genetics research. They kindly provided free plasmids containing inducible promoters.  
 
Center based in the USA that preserves fungal strains used in genetics research. They kindly provided free plasmids containing inducible promoters.  
 +
</p>
  
 
+
<p><b>Dr. HAB Wösten, Professor of Microbiology, Department of Biology, Utrecht University</b><br>
 +
Developed a hydrophobin knockout in <i>S. commune</i>.
 
</p>
 
</p>
 +
<p><b>Freek Appels, PhD student at Utrecht University</b><br>
 +
Helped with sending the <i>S. commune</i> from Utrecht to DTU.
 +
</p>
 +
 +
<div class="dontbreakarticle">
 
<p>
 
<p>
 
<b>Skyttegården </b><br>
 
<b>Skyttegården </b><br>
Local horticultural farm that donated hay to be used as a substrate for our fungi cultures.  
+
Local horticultural farm that donated hay to be used as a substrate for our fungal cultures.  
</p>
+
</p></div>
 
<p>
 
<p>
 
<b>Timothy Hobley, DTU Brewery</b><br>
 
<b>Timothy Hobley, DTU Brewery</b><br>
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<p>
 
<p>
 
<b>Fabiano Jares</b><br>
 
<b>Fabiano Jares</b><br>
PhD at DTU Bioengineering. He provided support for mycolab activities, especially for protoplastation and transformation for <i>Aspergillus oryzae</i>.  
+
PhD at DTU Bioengineering. He provided support for Mycolab activities, especially for protoplastation and transformation for <i>Aspergillus oryzae</i>.  
  
 
</p>
 
</p>
 
<p>
 
<p>
 
<b>Jakob Kræmmer Rendsvig</b><br>
 
<b>Jakob Kræmmer Rendsvig</b><br>
PhD student at DTU bioengineering. He helped mycolab with assessing transformation conditions of <i>A. oryzae</i>, specifically with providing a way to select for transformants.  
+
PhD student at DTU bioengineering. He helped mMcolab with assessing transformation conditions of <i>A. oryzae</i>, specifically with providing a way to select for transformants.  
 
</p>
 
</p>
 
<p>
 
<p>
 
<b>Andreas M. Vestergaard</b><br>
 
<b>Andreas M. Vestergaard</b><br>
PhD student at DTU bioengineering. He assisted mycolab in protoplastation of <i>A. oryzae</i>.  
+
PhD student at DTU bioengineering. He assisted Mycolab in protoplastation of <i>A. oryzae</i>.  
 
</p>
 
</p>
  
 
+
<p><b>Jacob Grau Thisted, Hyphaebox, a mycotecture startup at DTU</b><br>
 +
Helped with the growth conditions and interesting structural factors to examine.
 +
</p>
 +
<p><b>Mine Lisberg, Hyphaebox, a mycotecture startup at DTU</b><br>
 +
Helped with the growth conditions and interesting structural factors to examine.
 +
</p>
  
 
</article>
 
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<p>
 
<p>
 
<b>Lisbeth M. Ottosen</b><br>
 
<b>Lisbeth M. Ottosen</b><br>
Guided and helped us get access to the lab
+
Head of the Materials Section of DTU Civil Engineering. Guided us by sharing her considerable expertise in building materials, and helped us gain access to the labs.
  
 
</p>
 
</p>
 
<p>
 
<p>
 
<b>Christian Peter Rasmussen</b><br>
 
<b>Christian Peter Rasmussen</b><br>
Explained how to use the universal testing machine for performing ultimate compressive strength.
+
Electronics technician at DTU Civil Engineering. Instructed us in the use of the universal testing machine for performing ultimate compressive strength experiments.
  
  
Line 401: Line 460:
  
 
<b>Holger Koss</b><br>
 
<b>Holger Koss</b><br>
Gave us foam samples used to compare to our final fungal bricks.
+
Associate professor at DTU Civil Engineering. Gave us foam samples used to compare to our final fungal bricks.
  
 
</p>
 
</p>
 
<p>
 
<p>
 
<b>DTU Skylab</b><br>
 
<b>DTU Skylab</b><br>
Allowed us to use their equipment and providing us with instructions on how to weld and cut metal.
+
Allowed us to use their equipment and provided us with instructions on how to weld and cut metal.
  
 
</p>
 
</p>
Line 412: Line 471:
  
 
<b>Christina Ankjærgaard and Arne Miller from DTU NucTech</b><br>
 
<b>Christina Ankjærgaard and Arne Miller from DTU NucTech</b><br>
Helped us expose the fungi to a dose of gamma-radiation, equivalent to what they will recieve on Mars.  
+
Helped us expose the fungi to a dose of gamma-radiation, equivalent to what they will receive on Mars.  
 
</p>
 
</p>
  
Line 428: Line 487:
  
 
<div class="interlabspace">
 
<div class="interlabspace">
<h2>Human Practices</h2>
+
<h2 style="color:#FFA257;">Human Practices</h2>
 
<hr class="hrstyle1">
 
<hr class="hrstyle1">
  
Line 486: Line 545:
 
<p>
 
<p>
 
<b>Dmitrij Getman</b><br>
 
<b>Dmitrij Getman</b><br>
Teacher from st. Magleby skole. Contacted us with regards to the talks. Helped design the focus of the talk.
+
Teacher from St. Magleby skole contacted us with regards to the talks. Helped design the focus of the talk.
  
 
</p>
 
</p>
Line 512: Line 571:
  
 
<div class="interlabspace">
 
<div class="interlabspace">
<h3 class="media heading">Collab with UCopenhagen and Exeter
+
<h3 class="media heading">Collaboration with UCopenhagen and Exeter
 
</h3>
 
</h3>
 
<article>
 
<article>
 
<p>
 
<p>
 
<b>Matthew Romang, Exeter</b><br>
 
<b>Matthew Romang, Exeter</b><br>
Head of HP collab at Exeter.
+
Head of HP collaboration at Exeter.
 
</p>
 
</p>
 
<p>
 
<p>
 
<b>Frida Kampp, UCopenhagen </b><br>
 
<b>Frida Kampp, UCopenhagen </b><br>
Head of HP collab at UCopenhagen.
+
Head of HP collaboration  at UCopenhagen.
 +
</p>
 +
 
 +
<p><b>Michael Linden-Vørnle, Astrophysicist and Chief Consultant at DTU Space</b><br>
 +
Helped shape the DTU part of the collaboration.
 +
</p>
 +
 
 +
 
 +
 
 +
<p><b>Victoria Sværke Rasmussen, UCopenhagen</b><br>
 +
Head of HP collaboration at KU.
 
</p>
 
</p>
  
 
<p>
 
<p>
 +
<b>Christian Lund, PhD in history and philosophy at Sankt Annæ Gymnasium.</b><br>
 +
Helped with historical expertise during the DTU part of the collaboration.
 +
</p>
 +
</article>
 +
</div>
  
<b>Victoria Sværke Rasmussen, UCopenhagen</b><br>
+
<h3 class="media heading">Collaboration with Stanford-Brown-RISD</h3>
Head of HP collab at KU.
+
<div class="interlabspace">
 +
<article>
 +
<p>
 +
The whole of the team, but special thanks for being very involved goes to:
 
</p>
 
</p>
 
<p>
 
<p>
<b>Michael Linden-Vørnle, Astrophysicist and Chief Consultant at DTU Space</b><br>
+
<b>Leo Penny, team member of Stanford-Brown-RISD 2018</b>
Helped shape the DTU part of the collaboration.
+
 
</p>
 
</p>
 
<p>
 
<p>
<b>Christian Lund, PhD in history and philosophy at Sankt Annæ Gymnasium.</b><br>
+
<b>Javier Syquia, team member of Stanford-Brown-RISD 2018</b>
Helped with historical expertise during the DTU part of the collaboration.
+
</p>
 +
<p>
 +
<b>Arvind Veluvali, team member of Stanford-Brown-RISD 2018</b>
 
</p>
 
</p>
 
</article>
 
</article>
 
</div>
 
</div>
 
 
 
 
  
 
<h3 class="media heading">Ecovative
 
<h3 class="media heading">Ecovative
Line 548: Line 622:
 
<div class="interlabspace">
 
<div class="interlabspace">
 
<article>
 
<article>
<p>
+
<p style="page-break-inside: avoid; ">
 
<b>Eben Bayer, CEO</b><br>
 
<b>Eben Bayer, CEO</b><br>
 
  Helped with aligning the project with industry demands.
 
  Helped with aligning the project with industry demands.
 
</p>
 
</p>
 +
<div class="dontbreakarticle">
 +
<p>
  
<p>
 
 
<b>Damen Schaak, Senior Research Scientist and Genomics Program Lead</b><br>
 
<b>Damen Schaak, Senior Research Scientist and Genomics Program Lead</b><br>
 
Helped with acquiring the <i>Ganoderma</i> strain and provided the protoplasting protocol. Furthermore, he shared his knowledge of NHEJ in <i>Ganoderma</i>, which influenced the experimental design.
 
Helped with acquiring the <i>Ganoderma</i> strain and provided the protoplasting protocol. Furthermore, he shared his knowledge of NHEJ in <i>Ganoderma</i>, which influenced the experimental design.
  
 
</p>
 
</p>
 +
</div>
 
<p>
 
<p>
 
<b>Jen Towne</b><br>
 
<b>Jen Towne</b><br>
Line 565: Line 641:
 
</div>
 
</div>
  
<h3 class="media heading">Misc. scientists
+
 
</h3>
+
 
 +
 
 +
 
 +
 
 +
<!--#############################################################################################################
 +
                                      Economy
 +
##############################################################################################################-->
 +
 
 +
 
 +
 
 
<div class="interlabspace">
 
<div class="interlabspace">
 +
<h2 style="color:#FFA257;">Economy</h2>
 +
<hr class="hrstyle1">
 
<article>
 
<article>
 
<p>
 
<p>
<b>Jens Frisvad, Fungal researcher at DTU</b><br>
+
<b>Line Aastrup, Member from last years iGEM team. </b><br>
Helped with picking the right species of fungi for testing.
+
Line helped shape how bookkeeping of this years iGEM team was done.
 +
 
 
</p>
 
</p>
 +
<div class="dontbreakarticle">
 
<p>
 
<p>
<b>Mikako Sasa, Researcher at Novozymes</b><br>
+
<b>Malene Bonne Meyer, Head of teaching and talent development at DTU Bioengineering.</b><br>
Helped with direction of the project.
+
Malene has been a great source of help for the economy group. She has made sure that our bills have been registered and paid the right ways and in general helped us navigate the bureaucratic system of DTU’s economy. She has also guided us in matters of flight bookings and not least fundraising.
 +
 
 +
 
 +
</div><p>
 +
 
 +
<b>Rosalba A. Marek, Section secretary at DTU Bioengineering. </b><br>
 +
Rosalba has played a crucial part in the booking of flight tickets.
 +
 
 
</p>
 
</p>
 
<p>
 
<p>
<b>Sara Landwik, Researcher at Novozymes</b><br>
+
<b>Louise Balling, Project controller at Finance and Accounting, DTU</b><br>
Helped with the direction of the project
+
Gently scrutinized and subsequently approved our budget.
 +
 
 
</p>
 
</p>
 
<p>
 
<p>
<b>Uffe Mortensen, fungal researcher at DTU</b><br>
 
Helped with the possibilities of homologous recombination and NHEJ in <i>Aspergillus</i> and <i>Ganoderma</i>.
 
  
 +
<b>Stamatina Rentouli, member of iGEM Stockholm</b><br>
 +
Stamatina inspired ideas helping our fundraising efforts.
 
</p>
 
</p>
 +
 
</article>
 
</article>
 +
</div>
 +
 +
 +
 +
 +
 +
 +
</div>
 +
 +
 +
 +
 +
<!--#############################################################################################################
 +
                                      Sponsors
 +
##############################################################################################################-->
 +
 +
 +
 +
<div class="interlabspace">
 +
<h2 style="color:#FFA257;">Sponsors and Grants</h2>
 +
<hr class="hrstyle1">
 +
 +
 +
<p style="text-align:center;"> <img src="https://static.igem.org/mediawiki/2018/6/67/T--DTU-Denmark--attributions-sponsors.jpg" style="max-width: 100%;" 
 +
</p>
 +
 +
 +
<div class="interlabspace">
 +
<h3 class="media heading">Grants</h3>
 +
 +
 +
 +
 +
 +
<p>
 +
<b>DTU Blue Dot</b><br>
 +
DTU Biobuilders is one of the student projects supported by DTU, in general called a BlueDot project. All projects associated with BlueDot aims to develop a sustainable solution to a problem. During the projects the students work together across semesters, curricula and fields of study - <a href="http://www.dtu.dk/english/education/student-guide/studying-at-dtu/study-relevant-projects/dtu-blue-dot-projects" target="_blank">www.dtu.dk</a><br><br>
 +
 +
<b>Lundbeckfonden</b><br>
 +
For over 60 years, Lundbeckfonden has fostered active, value-adding ownership of the foundation’s subsidiaries while using the foundation’s independent research grants to benefit Danish-based biomedical sciences research, science education and research communication. - <a href="http://www.lundbeckfonden.com" target="_blank">www.lundbeckfonden.com</a><br><br>
 +
 +
<b>Otto Mønsted Fonden</b><br>
 +
Otto Mønsted Fonden was founded in 1916. The fund supports and contributes to the Danish Trade and industry. They also supports research and educational science within the technical science and commercial disciplines - <a href="http://www.ottomoensted.dk/" target="_blank">www.ottomoensted.com</a><br><br>
 +
</div>
 +
 +
 +
<div class="interlabspace">
 +
<h3 class="media heading">Sponsors</h3>
 +
<p>
 +
<b>DTU</b><br>
 +
The Technical University of Denmark is a technical elite university with international reach and standards. Its mission is to develop and utilize natural and technical sciences to benefit society. The university houses 10,300 students and 5,800 employees focused on education, research, consultancy for the public sector and innovation, which contributes to increased growth and welfare - <a href="http://www.dtu.dk/english/education" target="_blank">www.dtu.com</a><br><br>
 +
 +
<b>Integrated DNA Technologies</b><br>
 +
IDT develops, manufactures, and markets nucleic acid products that support the life sciences industry in the areas of academic and commercial research, agriculture, medical diagnostics, and pharmaceutical development - <a href="http://www.idtdna.com" target="_blank">www.idtdna.com</a><br><br>
 +
 +
<b>New England Biolabs</b><br>
 +
New England Biolabs is a recognized world leader in the discovery, development and commercialization of recombinant and native enzymes for genomic research - <a href="http://www.neb.com" target="_blank">www.neb.com</a><br><br>
 +
 +
<b>Qiagen</b><br>
 +
Qiagen is a provider of sample and assay technologies for molecular diagnostics, applied testing, academic and pharmaceutical research - <a href="http://www.qiagen.com" target="_blank">www.qiagen.com</a><br><br>
 +
 +
<b>Mettler Toledo</b><br>
 +
Mettler Toledo offers precision instruments and services for many applications within research and development, quality control, productions, logistics and retailing to customers worldwide - <a href="http://www.mt.com" target="_blank">www.mt.com</a><br><br>
 +
 +
<b>FGSC</b><br>
 +
The Fungal Genetics Stock Center is a resource available to the Fungal Genetics research community and to educational and research organizations in general. - <a href="http://www.fgsc.net" target="_blank">www.fgsc.net</a><br><br>
 +
 +
<b>Skyttegårdens Østerhatte Aps</b><br>
 +
Skyttegårdens Østerhatte Aps is a Danish horticulture company specialized in the production of ecological Oyster mushrooms. - <a href="https://www.xn--stershatte-zcb.dk/" target="_blank">www.østershatte.dk/</a><br><br>
 +
 +
 +
</p>
 +
</div>
 +
</div>
 +
 +
<div class="interlabspace">
 +
<h2 style="color:#FFA257;">Images and Illustrations</h2>
 +
<hr class="hrstyle1">
 +
<div class="interlabspace">
 +
<p>
 +
All illustrations are created by the team and photos are either purchased from Shutterstock or captured by ourselves.<br><br>
 +
<b>Sarah Lassen</b><br>Graphic designer that edited the photographs for us: <a target="_blank" href="http://sarahlassen.com/">www.sarahlassen.com</a></p>
 +
</div>
 +
</div>
 +
 +
 +
 +
 +
 +
 +
 +
 +
 
</div>
 
</div>
 
</div>
 
</div>
Line 700: Line 891:
 
<a href="https://2018.igem.org/Team:DTU-Denmark/Description">Project description</a>
 
<a href="https://2018.igem.org/Team:DTU-Denmark/Description">Project description</a>
 
&bull;
 
&bull;
                       <a href="https://2018.igem.org/Team:DTU-Denmark/Model">Modelling</a>
+
                       <a href="https://2018.igem.org/Team:DTU-Denmark/Model">Modeling</a>
 
&bull;
 
&bull;
 
<a href="https://2018.igem.org/Team:DTU-Denmark/Parts">Parts overview</a>
 
<a href="https://2018.igem.org/Team:DTU-Denmark/Parts">Parts overview</a>

Latest revision as of 12:56, 13 November 2018

Attributions

Team members


Lina Lyng Sigfredsson Nielsen

I was involved with the planning and execution of the Biobrick Tutorial. Have been helping in contacting schools for the elementary school project and doing the presentations. Mostly, though, I have been involved in the mycolab and the overall work with the fungi: Determining ideal substrates and conditions for the bricks to grow as well as doing protoplastations and transformations of the fungi.

David Lokjær Faurdal

Initially, my involvement has been administrative in nature; planning meetings, brainstorming sessions, collaborations and the BioBrick tutorial. Since then, my main occupation has been the synthetic biology of the project, which entails a lot of (re)designing constructs and lab work (including the Interlab Study). Additionally, as team leader, I’ve interacted a lot with the other arms of the project to discuss all sort of details and trying to keep things coherent.

Jacob Mejlsted

I have been heavily involved with the creation of the high school iGEM team (CHSS) together with Tenna. In addition to this, I have been in charge of contact with Ecovative Design and helped with presenting in the elementary school project. With regards to lab work, I have been working together with David, Joen and Tenna in the synthlab with the assembly of BioBricks.

Hannah-Marie Martiny

In the beginning of the project, I organized a cabin trip for the team to do some team building, and later on, I’ve been working on analyzing the growth of the fungus including both some image analysis and creating a model that simulates the microscopic hyphal growth. Furthermore, I have been assisting with the design of the wiki in regards to creating some of the graphics and other aspects.

Nicolai Jensen

My early involvement in the project was mainly about administrative work and planning some team building activities. I got involved in mechanical testing which led me to become the team's’ favorite fabricator. I made a budget hydraulic press and supplied the bio-folks with welded inoculator boxes until we decided that silicone ice-cube trays were better(they are). After designing our “brick” design, it was sent on to mechanical simulation. Lately, I’ve been doing compression tests of the fungus and will be designing and conducting tension tests in order to try to get Young's modulus of the fungus.

Lau Halkier Wandall

In the start I focused on ensuring that we chose a project, e.g. plan and book. Together with Mathias, I looked into different types of growth models. After looking at many different types, the coupling between model and reality was not as well-studied as hoped. I started working on modeling structural mechanics for the final structure as a test of realistic conditions. I also grew fungi under different conditions since MycoLab had some periods with very few people.

Tenna Gram Rasmussen

I was involved in a lot of branches throughout the project. I performed the Interlab study together with David, started the elementary school project and was heavily involved in creating the iGEM high school team (CHSS). I was one of the main responsibles who planned and executed the Biobrick Tutorial 2018, kept track of administrative work, worked on designing and writing a big part of the wiki, and I worked in the synthlab.

Joen Haahr Jensen

My efforts in this project have mainly been distributed in a threefold way: Fundraising, accounting and laboratory work. In the spring, I focused my time on applying for grants. Over the summer, I have spent my hours either being in the lab or thinking about being in the lab. Occasionally, in parallel to the rest, I have also brought forth a spreadsheet with expenditures and said “No, we cannot buy that.”

Mathies Brinks Sørensen

My involvement in the project has mainly been in the modeling part of the project. Particularly most of my time has been invested into statistical modeling as well as creating the experimental designs regarding compressive strength experiments. Furthermore, my involvement also included initial attempts in creating a growth model of the fungi via a hidden markov model approach.

Konstantinos Zifkos

My early involvement in the project was mainly about fundraising and generally being involved in the handling of the group economics. Later on, I was part of the mycolab where I focused on determining the optimal growth conditions of our fungi. Moreover, I was responsible for developing a protocol for the manufacturing process of our bricks.

Melissa Emilie McGrail

During this project, I’ve mostly been placing my energy in Human Practices where my main focus has been the collaboration with KU and Exeter. My competences in chemistry have been put mostly in consulting throughout the project.

Mathias Hoeg Boisen

Early on, my main focus was increasing the strength of the material, which has been the main drive in creating the statistical model. I’ve also worked on the collection of data, such as structural data, and design of experiments. I’ve worked on creating a simple growth model of fungi based on existing literature. This model can describe how fungi grow on a meso level, which means that its measurable quantity is explicitly density of mycelium. I’ve also been a part of creating the statistical model and helped gather structural data of the samples.

Alejandro Ventura-Traveset

During the first three months I focused in the economy group, where I was writing funding applications, creating budgets and booking accommodation and flights for the whole team. Then, I was part of the mycolab, where I carried out experiments related to fungal biology. I have been involved in culturing fungi, generating protoplasts, transforming fungi and other lab activities. Also, I have been in touch with several PhDs at the bioengineering department that have provided us with knowledge to continue with our project.

Michelle Lind Østrup

During the project my main focus was on creating a responsive wiki. I worked both with the wiki framework and the design aspect of it.

Instructors


Christopher Workman
Chris has been the supervisor for the DTU Biobuilders since the beginning and is always ready to answer any questions, be it about iGEM or science. He has done a lot for our team. We would not be the well-oiled machine we are today if not for him, and we would probably be sitting in a corner crying if it wasn’t for his guidance.

Kyle Rothschild-Mancinelli
As an iGEM alumnus and PhD student working with fungi, Kyle not only knew when to push us to keep up with the time-schedule, but he always pushed us to factually justify anything we did for our project. His drive and expectation made us want to do better and he was the perfect second-in-command to Chris Workman.

Project Design


Lynn J. Rothschild, Evolutionary biologist and astrobiologist at NASA's Ames Research Center
Our project goals were developed with Lynn after hearing her ideas for mycotecture on Mars in a presentation at DTU in the spring this year. Therefore, key project ideas and goals were provided to us from Lynn and we were encouraged to collaborate and complement our efforts with the Stanford-Brown-RISD team. As the supervisor of the Stanford-Brown-RISD team and mother of Kyle, Lynn was the connecting point of both our projects. She had a strong vision for a two-parted project and managed successfully to convey the possibilities to us. Even though she is across the world, she has managed to visit us three times to guide us.

Mikako Sasa, Researcher at Novozymes
Helped with direction of the project.

Sara Landwik, Researcher at Novozymes
Helped with the direction of the project

Synthlab


Jens Frisvad, DTU Bioengineering
Expert on fungal biodiversity who helped us in our initial search for befitting species.

Uffe Hasbro Mortensen, DTU Bioengineering
Helped us deciding on non-homologous end joining instead of homologous recombination.

Philip George Hau Sørensen, DTU Biobuilders 2017
Helped immensely with designing, ordering and procecuting different protocols. He also helped a lot with our Biobrick tutorial.

Chrysillis Magaard Polhaus, DTU Biobuilders 2017
Helped in submitting parts and helped with the laboratorial part of our Biobrick tutorial.

Cathrine Agnete Larsen, DTU Biobuilders 2017
Helped in submitting parts.

Aleksander Moldt Haack, DTU Biobuilders 2017
Helped with the Biobrick tutorial.

Rasmus John Nordman Frandsen, DTU Bioengineering
Gave feedback regarding cloning-strategies and colony PCR in A. oryzae.

Anna Joensen, DTU Bioengineering
Helped with sending the submitted parts.

Jens Preben Morth, Professor at DTU bioengineering
We coincidentally had several conversations with Preben, where we discussed our challenges in the laboratory work. He gave us good sparring on our ideas and inspired solutions to some of our problems.

Abigail Sison, Laboratory Technician and Ambassador to Australasia at IGEM
Abigail attended our BioBrick tutorial, where she shared valuable information and advice with the participants. She has also helped Synthlab clarify some doubts with respect to the rules and guidelines of the iGEM competition.

Mycolab


Ecovative Design
Ecovative Design is a New York based company that provided both inspiration and guidance to Mycolab. We collaborated with Damen Schaak, an experienced senior research scientist and project manager. As part of the collaboration, he supplied a protoplastation protocol and strains of Ecovative’s Ganoderma, and helped us adapting the protocol.

Mycoworks
This San-Francisco-based startup, who produce alternative and sustainable biomaterials using fungi, was also a good source of inspiration for our project.

Fungal Genetics Stock Center
Center based in the USA that preserves fungal strains used in genetics research. They kindly provided free plasmids containing inducible promoters.

Dr. HAB Wösten, Professor of Microbiology, Department of Biology, Utrecht University
Developed a hydrophobin knockout in S. commune.

Freek Appels, PhD student at Utrecht University
Helped with sending the S. commune from Utrecht to DTU.

Skyttegården
Local horticultural farm that donated hay to be used as a substrate for our fungal cultures.

Timothy Hobley, DTU Brewery
Provided spent brewing grains to be used as a substrate.

Fabiano Jares
PhD at DTU Bioengineering. He provided support for Mycolab activities, especially for protoplastation and transformation for Aspergillus oryzae.

Jakob Kræmmer Rendsvig
PhD student at DTU bioengineering. He helped mMcolab with assessing transformation conditions of A. oryzae, specifically with providing a way to select for transformants.

Andreas M. Vestergaard
PhD student at DTU bioengineering. He assisted Mycolab in protoplastation of A. oryzae.

Jacob Grau Thisted, Hyphaebox, a mycotecture startup at DTU
Helped with the growth conditions and interesting structural factors to examine.

Mine Lisberg, Hyphaebox, a mycotecture startup at DTU
Helped with the growth conditions and interesting structural factors to examine.

Drylab


Lisbeth M. Ottosen
Head of the Materials Section of DTU Civil Engineering. Guided us by sharing her considerable expertise in building materials, and helped us gain access to the labs.

Christian Peter Rasmussen
Electronics technician at DTU Civil Engineering. Instructed us in the use of the universal testing machine for performing ultimate compressive strength experiments.

Holger Koss
Associate professor at DTU Civil Engineering. Gave us foam samples used to compare to our final fungal bricks.

DTU Skylab
Allowed us to use their equipment and provided us with instructions on how to weld and cut metal.

Christina Ankjærgaard and Arne Miller from DTU NucTech
Helped us expose the fungi to a dose of gamma-radiation, equivalent to what they will receive on Mars.

Human Practices


High school team

Rasmus Ibsen Dehli, Head of Biotech Academy
Primary contact in Biotech academy. Helps in organizing the team.

Anne Sofie Dyerberg, Head of Biotech Academy
Helps in organizing the team.

Philip Hau Sørensen, Biobuilders 2017.
Co-organiser together with Biobuilders 2018.

Janet Standeven, Lambert iGEM.
Helped with answers to how a successful high school iGEM team can be organised and managed. In the high school project, multiple teachers and coordinators have helped us inform the project.

Teachers and talent coordinators

Morten Eskildsen, Teacher from Birkerød Gymnasium
Nicolai Bogø Stabell, Science teacher from HCØ Lyngby
Charlotte Hofman-Bang, Science coordinator from HCØ Lyngby
Mårten Flø Jørgensen, Talent coordinator from Bagsværd Kostskole og Gymnasium
Hans Marker, Science teacher from Sankt Annæ Gymnasium
Bo Kristensen, Science teacher from Sukkertoppen Gymnasium
Pernille Højen, Talent coordinator from Sukkertoppen Gymnasium
Lisa Tobiesen, Talent coordinator from Nærum Gymnasium
Dorte Kühnau, Science teacher from Virum Gymnasium
Birgit Riedel Langvad, Vice principal from Virum Gymnasium

Elementary School talks

Dmitrij Getman
Teacher from St. Magleby skole contacted us with regards to the talks. Helped design the focus of the talk.

Juliane Hansen
Teacher from Skt. Knud Lavard elementary school.

Stefan Tausen
Teacher from Kratbjergskolen, Ravnsholt Department.

Lasse Stampe Boje
Teacher from the elementary department of Sankt Annæ Gymnasium.

Collaboration with UCopenhagen and Exeter

Matthew Romang, Exeter
Head of HP collaboration at Exeter.

Frida Kampp, UCopenhagen
Head of HP collaboration at UCopenhagen.

Michael Linden-Vørnle, Astrophysicist and Chief Consultant at DTU Space
Helped shape the DTU part of the collaboration.

Victoria Sværke Rasmussen, UCopenhagen
Head of HP collaboration at KU.

Christian Lund, PhD in history and philosophy at Sankt Annæ Gymnasium.
Helped with historical expertise during the DTU part of the collaboration.

Collaboration with Stanford-Brown-RISD

The whole of the team, but special thanks for being very involved goes to:

Leo Penny, team member of Stanford-Brown-RISD 2018

Javier Syquia, team member of Stanford-Brown-RISD 2018

Arvind Veluvali, team member of Stanford-Brown-RISD 2018

Ecovative

Eben Bayer, CEO
Helped with aligning the project with industry demands.

Damen Schaak, Senior Research Scientist and Genomics Program Lead
Helped with acquiring the Ganoderma strain and provided the protoplasting protocol. Furthermore, he shared his knowledge of NHEJ in Ganoderma, which influenced the experimental design.

Jen Towne
Coordinates meetings with Eben and Damen.

Economy


Line Aastrup, Member from last years iGEM team.
Line helped shape how bookkeeping of this years iGEM team was done.

Malene Bonne Meyer, Head of teaching and talent development at DTU Bioengineering.
Malene has been a great source of help for the economy group. She has made sure that our bills have been registered and paid the right ways and in general helped us navigate the bureaucratic system of DTU’s economy. She has also guided us in matters of flight bookings and not least fundraising.

Rosalba A. Marek, Section secretary at DTU Bioengineering.
Rosalba has played a crucial part in the booking of flight tickets.

Louise Balling, Project controller at Finance and Accounting, DTU
Gently scrutinized and subsequently approved our budget.

Stamatina Rentouli, member of iGEM Stockholm
Stamatina inspired ideas helping our fundraising efforts.

Sponsors and Grants


Grants

DTU Blue Dot
DTU Biobuilders is one of the student projects supported by DTU, in general called a BlueDot project. All projects associated with BlueDot aims to develop a sustainable solution to a problem. During the projects the students work together across semesters, curricula and fields of study - www.dtu.dk

Lundbeckfonden
For over 60 years, Lundbeckfonden has fostered active, value-adding ownership of the foundation’s subsidiaries while using the foundation’s independent research grants to benefit Danish-based biomedical sciences research, science education and research communication. - www.lundbeckfonden.com

Otto Mønsted Fonden
Otto Mønsted Fonden was founded in 1916. The fund supports and contributes to the Danish Trade and industry. They also supports research and educational science within the technical science and commercial disciplines - www.ottomoensted.com

Sponsors

DTU
The Technical University of Denmark is a technical elite university with international reach and standards. Its mission is to develop and utilize natural and technical sciences to benefit society. The university houses 10,300 students and 5,800 employees focused on education, research, consultancy for the public sector and innovation, which contributes to increased growth and welfare - www.dtu.com

Integrated DNA Technologies
IDT develops, manufactures, and markets nucleic acid products that support the life sciences industry in the areas of academic and commercial research, agriculture, medical diagnostics, and pharmaceutical development - www.idtdna.com

New England Biolabs
New England Biolabs is a recognized world leader in the discovery, development and commercialization of recombinant and native enzymes for genomic research - www.neb.com

Qiagen
Qiagen is a provider of sample and assay technologies for molecular diagnostics, applied testing, academic and pharmaceutical research - www.qiagen.com

Mettler Toledo
Mettler Toledo offers precision instruments and services for many applications within research and development, quality control, productions, logistics and retailing to customers worldwide - www.mt.com

FGSC
The Fungal Genetics Stock Center is a resource available to the Fungal Genetics research community and to educational and research organizations in general. - www.fgsc.net

Skyttegårdens Østerhatte Aps
Skyttegårdens Østerhatte Aps is a Danish horticulture company specialized in the production of ecological Oyster mushrooms. - www.østershatte.dk/

Images and Illustrations


All illustrations are created by the team and photos are either purchased from Shutterstock or captured by ourselves.

Sarah Lassen
Graphic designer that edited the photographs for us: www.sarahlassen.com