Difference between revisions of "Team:Imperial College/Attributions"

 
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<p3><i>We would like to thank the kind, supportive people that we have met and had the privilege of collaborating with over our iGEM project. There have been numerous research groups, companies, departments and individuals that have supported us over the course of this project. We would like to express our gratitude and acknowledge all of these people for their time and contribution. </i>
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<p3><i>We would like to thank the kind, supportive people that we have met and had the privilege of collaborating with during our iGEM project. Numerous research groups, companies, departments and individuals have supported us over the course of this project. We would like to express our gratitude and acknowledge all of these people for their time and contribution. </i>
 
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<h4>Supervisors </h4>
 
<h4>Supervisors </h4>
  
<p1>The supervisors helped us develop the project and were extremely helpful when resolving all issues that arose in the team. . We would like to thank<b> Dr Rodrigo Ledesma-Amaro </b>and <b>Amritpal Singh</b> , particularly,  for their guidance and expertise during wet lab troubleshooting.  In addition, we would like to thank <b>Dr Tom Ouldridge </b>for his support and guidance on modelling and software issues and to <b>Ismael Mullor Ruiz</b> for his support on all areas of the project and being the glue of the team to keep us together. Finally, we would like to give special thanks to <b>Prof. Richard Kitney</b> for helping us make this project possible and encouraging us and encourage us to make the most of this time working on project and considering its impact on society. This project will not be completed without all of your support.</p1>
+
<p1>The supervisors supported us in developing the project and were extremely helpful when resolving all issues that arose in the team. We would like to thank<b> Dr Rodrigo Ledesma-Amaro </b>and <b>Amritpal Singh</b> , particularly,  for their guidance and expertise during wet lab troubleshooting.  In addition, we would like to thank <b>Dr Tom Ouldridge </b>for his support and guidance on modelling and software issues and to <b>Ismael Mullor Ruiz</b> for his support on all areas of the project and being the glue of the team to keep us together. Finally, we would like to give special thanks to <b>Prof. Richard Kitney</b> for helping us to make this project a reality and encouraging us to make the most of our time on the project, particularly by considering its impact on society. This project would not have been completed without all of your support.</p1>
  
 
<h4>Departments </h4>
 
<h4>Departments </h4>
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<p1>We would like to express the greatest of gratitude to the departments of Bioengineering and Life Sciences at Imperial College London, for making this project possible and providing us the platform to have one of the best experiences of our lives. </p1>
 
<p1>We would like to express the greatest of gratitude to the departments of Bioengineering and Life Sciences at Imperial College London, for making this project possible and providing us the platform to have one of the best experiences of our lives. </p1>
  
  <h3>Technical Support</h3>
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  <div id="electro"></div><h3>Technical Support</h3>
<p3><i>During the course of the project we have had the chance to work with many great people who have helped us address the bottlenecks of the project:</i> </p3>
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<p3><i>During the course of the project we have had the chance to work with many great people who have helped us overcome the bottlenecks in the project:</i> </p3>
  
 
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<p1><b><i>Dr Danny O’Hare,</i></b>, reader in sensor research, profoundly advised us during the electrochemistry and modelling experiments . He gave us crucial advicse on finding the balance of our redox modulators to optimise our system in different conditions. as well as on, how to evaluate and understand the chemical reactions taking place  in our system’s background. </p1>
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<p1><b><i>Dr Danny O’Hare,</i></b> reader in sensor research, shared his expertise with us during the initial electrochemistry experiments and modelling work. He gave us crucial advice on finding the balance of our redox modulators to optimise our system in different conditions, and how to evaluate and understand the chemical reactions taking place  in our system’s background. </p1>
  
 
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<p1><b><i>Dr Robert Bradley</i></b>,  as a bio-electrochemist, gave us essential advice on how to work  work with a bio-electrochemical system and kindly provided us with a  potentiostat to use  for the duration of the project.  
+
<p1><b><i>Dr Robert Bradley</i></b>,  as a bio-electrochemist, gave us essential advice on how to work with a bio-electrochemical system and kindly provided us with a  potentiostat to use  for the duration of the project.  
 
</p1>
 
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<p1><b><i>Dr Marko Storch</i></b>, Dr Marko Storch, as one of the developers of the BASIC assembly technique, helped us tremendously when  discussing the design and characterisation of the library constructs. In addition to helping us troubleshoot our constructs used for the “application section”, he also advised us to use a Fluorescent Image Analyser, which helped us to get a clear and detailed proof-of-concept data. </p1>
+
<p1><b><i>Dr Marko Storch</i></b>, as one of the developers of the BASIC assembly technique, helped us tremendously when  designing and planning the characterisation of our library constructs. In addition to helping us troubleshoot our "application" constructs, he also advised us to use a Fluorescent Image Analyser, which helped us to get clear and detailed proof-of-concept data. </p1>
  
 
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<p1><b><i>Ari Dwijayanti</i></b>, expert in BASIC, she instructed us in BASIC assembly technique performance and patiently helped us with problems we faced in the lab.</p1>  
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<p1><b><i>Ari Dwijayanti</i></b>, an expert in BASIC, instructed us in BASIC assembly technique performance and patiently helped us with problems we faced in the lab.</p1>  
 
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<p1><b><i>Dr Robert Sternberg</i></b>, senior lecturer in science communication, advised us on our science communication strategy design and human practices in general. He suggested that phrasing is particularly important when it comes to present science to audience with different backgrounds. This key concept led us to develop our Science Communication Guide. </p1>
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<p1><b><i>Dr Robert Sternberg</i></b>, senior lecturer in science communication, advised us on our science communication strategy and our approach to human practices in general. He suggested that phrasing is particularly important when presenting science to audiences with different backgrounds. This key concept led us to develop our Science Communication Guide. </p1>
 
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<p1><b><i>Dr Tanya Tschirhart</i></b>, as the first author of the original Nature Communications paper which we based our project off of,  gave us some counselling in electrochemistry techniques and electrode materials allowing us to improve upon the protocols which she had worked on during the development of the system.  </p1>  
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<p1><b><i>Dr Tanya Tschirhart</i></b>, first author of the original Nature Communications paper on electrochemical stimulation of cells,  gave us invaluable insight into details of how the experiments in that paper were performed.  </p1>  
 
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<p1><b><i>Dr Andrea Fantuzzi</i></b>, as electrochemist  also helped us troubleshoot our system and gave us advice on different chemicals we could use to make our system work. </p1>
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<p1><b><i>Dr Andrea Fantuzzi</i></b>, an electrochemist, also helped us troubleshoot our system and gave us advice on using different chemicals we to improve our system. </p1>
 
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<p1><b><i>Alice Boo & Henry Lloyd-Laney</i></b> since the beginning of our project, Alice and Henry were heavily involved in our project, giving us advice in how to convey our ideas. Alice also kindly provided us with plasmids and lab material when needed . </p1>
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<p1><b><i>Alice Boo & Henry Lloyd-Laney</i></b>. Since the beginning of our project, Alice and Henry were heavily involved, giving us advice in how to convey our ideas. Alice also kindly provided us with plasmids and lab material when needed. </p1>
 
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<p1><b><i>Albert Fàbregas Flavià </i></b>, always come up with creative solutions to our problems and thank you <b><i> Dr. Nicolas Kylilis </i></b> for inspiring us with a new mathematical ways to visualise our data. </p1>
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<p1><b><i>Albert Fàbregas Flavià </i></b>, you always came up with creative solutions to our problems, and we thank you <b><i> Dr. Nicolas Kylilis </i></b>, thanks for inspiring us with new mathematical ways to visualise our data. </p1>
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<p1>Our fellow undergraduate students on the synthetic biology course at Imperial, for bringing the Tanya's paper to our attention during a brainstorming session.
 +
</p1>
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  <h3>Wiki support</h3>
 
  <h3>Wiki support</h3>
<p1><b><i>Carys Muller</i></b>, as the former wiki person in the Imperial iGEM team, she gave advice on wiki building and has helped with troubleshooting the website codes</p1>
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<p1><b><i>Carys Moller</i></b>, former wiki creator in the Imperial iGEM team, gave advice on wiki building and has helped with troubleshooting the website codes</p1>
 
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<p1><b><i>Virginia Ma</i></b>, as a graphic designer from UAL. She helped us to produce the demonstration icons that are shown on each pages. She also gave advise on the aesthetic side of the wiki design.</p1>
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<p1><b><i>Virginia Ma</i></b>, graphic designer from UAL, helped us to produce icons and advised on aesthetics for the wiki.</p1>
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<h3>More supporters</h3>
 
<h3>More supporters</h3>
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<p1><b><i>Tania Briggs</i></b>, helped us with organizational effort and communication with iGEM foundation. </p1>
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<p1><b><i>Tania Briggs</i></b> for extensive organizational efforts and communication with the iGEM foundation. </p1>
 +
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<p1><b><i>Susan Wryter</i></b> the lab technician for the teaching labs that we used during the project. Thank you for helping us to acquire material for our experiments and teaching us how to properly manage a laboratory. </p1>
 
</br></br>
 
</br></br>
<p1><b><i>Susan Wryter</i></b>, as lab technician for Life Sciences teaching labs, helped us acquiring lab material for our experiments and teaching us how to properly manage a laboratory. </p1>
+
<p1><b><i>Luca Francesco Montanelli</i></b> for using coding skills to help us to develop a Unity game for presenting our project to both non-scientific and scientific audiences. </p1>
 
</br></br>
 
</br></br>
<p1><b><i>Luca Francesco Montanelli</i></b>, used his coding skills to help us develop a Unity game to present our project to non scientific and scientific audiences. </p1>
+
<p1><b><i>Francesca Hussey, Olivia Wing Cheung, Ronni Winkler and Taïna Griscom</b></i> for creating the amazing art pieces that helped us covey synthetic biology and the importance of biopatterning to the general public at the New Scientist Live science fair. We look forward to presenting their work in our forthcoming exhibition at Imperial College. </p1>
 
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<p1><b><i>Artists (names??)</i></b>, they helped us in different stages of our project, during brainstorming, designing the art work for our scientifically based art exhibition and helping us design other visual parts of our project. </p1>
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<p1><b><i>Audrey Wong, Michelle Lim and Andrea Li</i></b> for running a design work shop with us and other London universities, and for giving us feedback and advice in designing our posters and presentations for the jamboree. </p1>
  
 
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</div>

Latest revision as of 14:38, 2 November 2018


Attributions

We would like to thank the kind, supportive people that we have met and had the privilege of collaborating with during our iGEM project. Numerous research groups, companies, departments and individuals have supported us over the course of this project. We would like to express our gratitude and acknowledge all of these people for their time and contribution.

General Support

Supervisors

The supervisors supported us in developing the project and were extremely helpful when resolving all issues that arose in the team. We would like to thank Dr Rodrigo Ledesma-Amaro and Amritpal Singh , particularly, for their guidance and expertise during wet lab troubleshooting. In addition, we would like to thank Dr Tom Ouldridge for his support and guidance on modelling and software issues and to Ismael Mullor Ruiz for his support on all areas of the project and being the glue of the team to keep us together. Finally, we would like to give special thanks to Prof. Richard Kitney for helping us to make this project a reality and encouraging us to make the most of our time on the project, particularly by considering its impact on society. This project would not have been completed without all of your support.

Departments

We would like to express the greatest of gratitude to the departments of Bioengineering and Life Sciences at Imperial College London, for making this project possible and providing us the platform to have one of the best experiences of our lives.

Technical Support

During the course of the project we have had the chance to work with many great people who have helped us overcome the bottlenecks in the project:

Dr Danny O’Hare, reader in sensor research, shared his expertise with us during the initial electrochemistry experiments and modelling work. He gave us crucial advice on finding the balance of our redox modulators to optimise our system in different conditions, and how to evaluate and understand the chemical reactions taking place in our system’s background.

Dr Robert Bradley, as a bio-electrochemist, gave us essential advice on how to work with a bio-electrochemical system and kindly provided us with a potentiostat to use for the duration of the project.

Dr Marko Storch, as one of the developers of the BASIC assembly technique, helped us tremendously when designing and planning the characterisation of our library constructs. In addition to helping us troubleshoot our "application" constructs, he also advised us to use a Fluorescent Image Analyser, which helped us to get clear and detailed proof-of-concept data.

Ari Dwijayanti, an expert in BASIC, instructed us in BASIC assembly technique performance and patiently helped us with problems we faced in the lab.

Dr Robert Sternberg, senior lecturer in science communication, advised us on our science communication strategy and our approach to human practices in general. He suggested that phrasing is particularly important when presenting science to audiences with different backgrounds. This key concept led us to develop our Science Communication Guide.

Dr Tanya Tschirhart, first author of the original Nature Communications paper on electrochemical stimulation of cells, gave us invaluable insight into details of how the experiments in that paper were performed.

Dr Francesca Ceroni helped brainstorm ideas when coming up with applications for our system.

Dr Andrea Fantuzzi, an electrochemist, also helped us troubleshoot our system and gave us advice on using different chemicals we to improve our system.

Dr Tom Ellis, Dr Guy Bart-Stan, Dr Karen Polizzi and Dr Kirsten Jensen, as supervisors from previous iGEM teams, supported our project and guided us in all aspects of the iGEM competition.

Alice Boo & Henry Lloyd-Laney. Since the beginning of our project, Alice and Henry were heavily involved, giving us advice in how to convey our ideas. Alice also kindly provided us with plasmids and lab material when needed.

Albert Fàbregas Flavià , you always came up with creative solutions to our problems, and we thank you Dr. Nicolas Kylilis , thanks for inspiring us with new mathematical ways to visualise our data.

Our fellow undergraduate students on the synthetic biology course at Imperial, for bringing the Tanya's paper to our attention during a brainstorming session.

Wiki support

Carys Moller, former wiki creator in the Imperial iGEM team, gave advice on wiki building and has helped with troubleshooting the website codes

Virginia Ma, graphic designer from UAL, helped us to produce icons and advised on aesthetics for the wiki.

More supporters

We would also like to acknowledge those that provided us with their assistance when it came to organising our project and helped with the technicalities around a summer project.

Tania Briggs for extensive organizational efforts and communication with the iGEM foundation.

Susan Wryter the lab technician for the teaching labs that we used during the project. Thank you for helping us to acquire material for our experiments and teaching us how to properly manage a laboratory.

Luca Francesco Montanelli for using coding skills to help us to develop a Unity game for presenting our project to both non-scientific and scientific audiences.

Francesca Hussey, Olivia Wing Cheung, Ronni Winkler and Taïna Griscom for creating the amazing art pieces that helped us covey synthetic biology and the importance of biopatterning to the general public at the New Scientist Live science fair. We look forward to presenting their work in our forthcoming exhibition at Imperial College.

Audrey Wong, Michelle Lim and Andrea Li for running a design work shop with us and other London universities, and for giving us feedback and advice in designing our posters and presentations for the jamboree.