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| <h2>Aalto-Helsinki Bioworks in Short</h2> | | <h2>Aalto-Helsinki Bioworks in Short</h2> |
| <p> | | <p> |
- | We are Aalto-Helsinki Bioworks, the first-ever Finnish iGEM Team and one of the four teams in the new Entrepreneurship Track. Our team consist of 9 students from Aalto University and the University of Helsinki and we are combining our interdisciplinary forces to develop something new and fascinating. We want to put Finland on the map of synthetic biology and improve undergraduate research opportunities in our universities. | + | We are Aalto-Helsinki Bioworks, the first-ever Finnish iGEM Team and one of the four teams in the new Entrepreneurship Track. Our <a href="https://2014.igem.org/Team:Aalto-Helsinki/Team">team</a> consist of 9 students from Aalto University and the University of Helsinki and we are combining our interdisciplinary forces to develop something new and fascinating. We want to put Finland on the map of synthetic biology and improve undergraduate research opportunities in our universities. |
| </p> | | </p> |
| <p> | | <p> |
- | We have designed a three-channel gene switch that would make it possible to control three user-defined genes with blue light intensity. We are using YF1 as our light receptor protein and the signal is mediated to lambda repressor protein (CI) production via phosphorylation pathway. The concentration of CI protein defines the gene that should be active at the time using a lambda repressor mechanism. | + | We have <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research">designed</a> a three-channel gene switch that would make it possible to control three user-defined genes with blue light intensity. We are using <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research#yf1-title">YF1</a> as our light receptor protein and the signal is mediated to lambda repressor protein (CI) production via phosphorylation pathway. The concentration of CI protein defines the gene that should be active at the time using a <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research#lambda-title">lambda repressor</a> mechanism. |
| </p> | | </p> |
| <p> | | <p> |
- | The modeling team constructed a mathematical model that simulates the interactions of the molecules and function of the gene switch we designed. This revealed interesting phenomena in the dynamics of our system which helps us to better understand the capabilities and limitations of the gene switch. We also made an interactive simulation available to everybody to best illustrate how our idea actually works. | + | The modeling team constructed a mathematical <a href="https://2014.igem.org/Team:Aalto-Helsinki/Modeling">model</a> that simulates the interactions of the molecules and function of the gene switch we designed. This revealed interesting phenomena in the dynamics of our system which helps us to better understand the capabilities and limitations of the gene switch. We also made an <a href="http://igem-qsf.github.io/SimCircus/WebUI/">interactive simulation</a> available to everybody to best illustrate how our idea actually works. |
| </p> | | </p> |
| <p> | | <p> |
- | The LED rig is a device for controlling, how much the cell cultures are exposed to blue light. This enabled us to do diverse experiments to characterize our light response element. These results show that our light response element is able to regulate the downstream gene expression precisely. In addition, the response time is in a ten-minute-scale, which enables constant and nearly real-time control over bacterial cultures. We hypothesize that this systems is also applicable to bioreactors which would enable higher level of control in industrial bioprocesses. However, our fully functional prototype is still under ongoing development. | + | The <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research#ledrig-title">LED rig</a> is a device for controlling, how much the cell cultures are exposed to blue light. This enabled us to do diverse <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research#fluorescence-title"></a>experiments to characterize our light response element. These <a href="https://2014.igem.org/Team:Aalto-Helsinki/Research#Results">results</a> show that our light response element is able to regulate the downstream gene expression precisely. In addition, the response time is in a ten-minute-scale, which enables constant and nearly real-time control over bacterial cultures. In addition, we hypothesize that this systems is also applicable to bioreactors which would enable higher level of control in industrial bioprocesses. However, our fully functional prototype is still under ongoing development. |
| </p> | | </p> |
| <p> | | <p> |
- | We have developed an open approach to biotech business inspired by Open Source model. Following the Open Source philosophy, we distribute open Aalto-Helsinki Bioworks technologies for free to everybody as long as they share the improvements made on the technology. Therefore, we empower our users to participate in product development. Our business model is based on hardware and wide range of services offered to our customers. | + | We have developed an open approach to <a href="https://2014.igem.org/Team:Aalto-Helsinki/Business">biotech business</a> inspired by Open Source model. Following the Open Source philosophy, we distribute open Aalto-Helsinki Bioworks technologies for free to everybody as long as they share the improvements made on the technology. Therefore, we empower our users to participate in product development. Our <a href="">**tähän vielä linkki!**</a> business model is based on hardware and wide range of services offered to our customers. |
| </p> | | </p> |
| <p> | | <p> |
- | During the summer, we participated to Aalto Entrepreneurship Society’s Summer of Startups 2014 incubator programme to learn the essential entrepreneurial skills, such as pitching, investor relations, customer-driven development and explaining the science for general audience. See our Demo Day video for details. | + | During the summer, we participated to Aalto Entrepreneurship Society’s <a href="https://2014.igem.org/Team:Aalto-Helsinki/Business#Sos">Summer of Startups 2014</a> incubator programme to learn the essential entrepreneurial skills, such as pitching, investor relations, customer-driven development and <a href="https://2014.igem.org/Team:Aalto-Helsinki/Business#pitch-title">explaining</a> the science for general audience. See our Demo Day video for details. |
| </p> | | </p> |
| <p> | | <p> |
- | iGEM is an international experience and as the first Finnish team, we went to find advice and experience around the globe. We contributed to the iGEM community by building a BioBrick seeker tool which makes it easy to find interesting parts in the 2014 BioBrick distribution. This tool has been used by iGEM teams all over the world! We also did a lot of cooperation, including filling out surveys and having skype conversations and live meetings with current and previous iGEM teams from France, Colombia, Switzerland, USA and the Netherlands. We even made a video together with ETH Zürich team to Colombia team’s challenge. | + | iGEM is an international experience and as the first Finnish team, we went to find advice and experience around the globe. We contributed to the iGEM community by building a <a href="https://2014.igem.org/Team:Aalto-Helsinki/Cooperation#Seekers">BioBrick seeker</a> tool which makes it easy to find interesting parts in the 2014 BioBrick distribution. This tool has been used by iGEM teams all over the world! We also did a lot of <a href="https://2014.igem.org/Team:Aalto-Helsinki/Cooperation#Interteam">cooperation</a>, including filling out surveys and having skype conversations and live meetings with current and previous iGEM teams from France, Colombia, Switzerland, USA and the Netherlands. We even made a <a href="http://www.youtube.com/embed/icPgP3OOVOQ?rel=0">video</a> together with ETH Zürich team to Colombia team’s challenge. |
| </p> | | </p> |
| <p> | | <p> |
- | We want to raise awareness about synthetic biology in Finland and also showcase researchers’ work to young people and undergraduate students. Therefore, we have been reaching out to general public and young people via social media, including Facebook, Twitter, Youtube, Flickr and our own blog. We’ve shared stories, pictures, videos and experiences to our followers. In addition, we have have been featured in radio interviews and articles on magazines and webzines. We also made a silly game: Flappy Coli. Wehave a public team webpage, aaltohelsinki.com, where you can find the latest stories of Aalto Helsinki also in the future. We lifted some of the highlights of this project on a timeline: the story of Aalto-Helsinki Bioworks is there for you to see! | + | We want to <a href="https://2014.igem.org/Team:Aalto-Helsinki/Outreach">raise awareness</a> about synthetic biology in Finland and also showcase researchers’ work to young people and undergraduate students. Therefore, we have been reaching out to general public and young people via <a href="https://2014.igem.org/Team:Aalto-Helsinki/Outreach#SoMe">social media</a>, including <a href="https://www.facebook.com/AaltoHelsinki">Facebook</a>, <a href="https://twitter.com/AaltoHelsinki">Twitter</a>, <a href="https://www.youtube.com/channel/UCEZliqjLu86CRpQlk57FfSw">Youtube</a>, <a href="https://www.flickr.com/photos/aaltohelsinki/">Flickr</a> and our own <a href="http://2014.aaltohelsinki.com/blog/">blog</a>. We’ve shared stories, pictures, videos and experiences to our followers. In addition, we have have been featured in radio interviews and articles on magazines and webzines. We also made a silly game: <a href="https://2014.igem.org/Team:Aalto-Helsinki/Flappycoli">Flappy Coli</a>. Wehave a public team webpage, <a href="http://aaltohelsinki.com/">aaltohelsinki.com</a>, where you can find the latest stories of Aalto Helsinki also in the future. We lifted some of the highlights of this project on a <a href="https://2014.igem.org/Team:Aalto-Helsinki/Journal#Timeline">timeline</a>: the story of Aalto-Helsinki Bioworks is there for you to see! |
| </p> | | </p> |
| <br> | | <br> |
Aalto-Helsinki
Bioworks
Our aim is to build an active synthetic biology community in Finland, to learn and share what biotech entrepreneurship takes and to find an open way to build business on synthetic biology.
Aalto-Helsinki Bioworks
A Synthetic Biology Startup with a Three-Channel Gene Switch
Project description
We have engineered a three-channel switch that is controlled with the intensity of blue light. By utilizing the mechanisms of the lambda repressor, we may be able to switch between the expressions of three different genes with a short delay. This kind of mechanism provides a nearly real-time control over genes, which could provide advantages in variety of industrial bioprocesses.
Inspired by the principles of open source software, we introduce an Open Source business model implemented around our switch. We want to encourage future companies to create Open Source based solutions and to empower customers to participate in the product development. Open Source model’s transparency as well as lower degree of protection raises trust and continuity and benefits larger community.
We want to share our experiences and insights in biotech entrepreneurship and address the difficulties that students and newcomers may face in the early stages of building a synthetic biology startup.
Aalto-Helsinki Bioworks in Short
We are Aalto-Helsinki Bioworks, the first-ever Finnish iGEM Team and one of the four teams in the new Entrepreneurship Track. Our team consist of 9 students from Aalto University and the University of Helsinki and we are combining our interdisciplinary forces to develop something new and fascinating. We want to put Finland on the map of synthetic biology and improve undergraduate research opportunities in our universities.
We have designed a three-channel gene switch that would make it possible to control three user-defined genes with blue light intensity. We are using YF1 as our light receptor protein and the signal is mediated to lambda repressor protein (CI) production via phosphorylation pathway. The concentration of CI protein defines the gene that should be active at the time using a lambda repressor mechanism.
The modeling team constructed a mathematical model that simulates the interactions of the molecules and function of the gene switch we designed. This revealed interesting phenomena in the dynamics of our system which helps us to better understand the capabilities and limitations of the gene switch. We also made an interactive simulation available to everybody to best illustrate how our idea actually works.
The LED rig is a device for controlling, how much the cell cultures are exposed to blue light. This enabled us to do diverse experiments to characterize our light response element. These results show that our light response element is able to regulate the downstream gene expression precisely. In addition, the response time is in a ten-minute-scale, which enables constant and nearly real-time control over bacterial cultures. In addition, we hypothesize that this systems is also applicable to bioreactors which would enable higher level of control in industrial bioprocesses. However, our fully functional prototype is still under ongoing development.
We have developed an open approach to biotech business inspired by Open Source model. Following the Open Source philosophy, we distribute open Aalto-Helsinki Bioworks technologies for free to everybody as long as they share the improvements made on the technology. Therefore, we empower our users to participate in product development. Our **tähän vielä linkki!** business model is based on hardware and wide range of services offered to our customers.
During the summer, we participated to Aalto Entrepreneurship Society’s Summer of Startups 2014 incubator programme to learn the essential entrepreneurial skills, such as pitching, investor relations, customer-driven development and explaining the science for general audience. See our Demo Day video for details.
iGEM is an international experience and as the first Finnish team, we went to find advice and experience around the globe. We contributed to the iGEM community by building a BioBrick seeker tool which makes it easy to find interesting parts in the 2014 BioBrick distribution. This tool has been used by iGEM teams all over the world! We also did a lot of cooperation, including filling out surveys and having skype conversations and live meetings with current and previous iGEM teams from France, Colombia, Switzerland, USA and the Netherlands. We even made a video together with ETH Zürich team to Colombia team’s challenge.
We want to raise awareness about synthetic biology in Finland and also showcase researchers’ work to young people and undergraduate students. Therefore, we have been reaching out to general public and young people via social media, including Facebook, Twitter, Youtube, Flickr and our own blog. We’ve shared stories, pictures, videos and experiences to our followers. In addition, we have have been featured in radio interviews and articles on magazines and webzines. We also made a silly game: Flappy Coli. Wehave a public team webpage, aaltohelsinki.com, where you can find the latest stories of Aalto Helsinki also in the future. We lifted some of the highlights of this project on a timeline: the story of Aalto-Helsinki Bioworks is there for you to see!
Qualifications
Coming soon(tm).
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