Difference between revisions of "Vilnius meeting 2017"
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Set along with the challenges of contemporary life, scientists are in a constant need to compare and contrast their definitions of creation, innovation and engineering of life with specialists in the humanities, social sciences and arts. This discussion creates an opportunity for collective thinking on the progression of synthetic biology and life sciences within the perspective of big themes of responsibility, safety and future of humanity. | Set along with the challenges of contemporary life, scientists are in a constant need to compare and contrast their definitions of creation, innovation and engineering of life with specialists in the humanities, social sciences and arts. This discussion creates an opportunity for collective thinking on the progression of synthetic biology and life sciences within the perspective of big themes of responsibility, safety and future of humanity. | ||
− | In | + | In the first keynote presentation, Prof. Ursula Damm talks about experiences gained during the iGEM 2010 competition in a collaborative science & arts project. Referring to Jakob von Uexküll's biosemiotics, Damm will delineate a behavior-based approach for future Bioart projects. In the second keynote, Gabrielius Jakutis will present ethical issues and biosafety concerns relevant to the field of synthetic biology and the construction of synthetic life, as well as explain the importance of establishing a mutual partnership between scientists, lay public, and specialists of social sciences and arts. |
===Collaborators=== | ===Collaborators=== |
Revision as of 23:01, 20 September 2017
Contents
- 1 siNbiozė: lab + studio
- 2 Public Programme
- 3 "Self-repair" Lab
- 4 Workshop “Lichen biohacking: revealing the secrets of the forgotten part of the forgotten kingdom”
- 5 Workshop “How scientists employ bacteria to make them perform desired functions?”
- 6 Panel/Discussion “The Future of Life: Do We Understand What We Create?”
- 7 Collaborators
- 8 Credits
siNbiozė: lab + studio
The newly shaping DIYBio network is emerging in Nordic and Baltic region which connects the researchers, makers, artists, scientists via their shared interest in DIYBio and their desire to shape own future by the process of making. It brings together biolabs, individuals and organisations from Nordic, Baltic and other European countries and represents the critical mass currently working in DIYBio field, coming from grassroots initiatives.
The international meeting with a coded name "siNbiozė" is an attempt to realise the possibility of symbiosis of scientific and artistic practices, aimed at development and presentation of ideas, questioning the possibility to visualise essential scientific information and approach such areas as genetic engineering and life-programming.
A lab with two public workshops and a studio with discussion takes place during DIYbio Vilnius 2017, followed by internal meeting of network participants. Offering activities in real laboratory and also home-like environment, as well as philosophical/theoretical, scientific and hands-on approaches, this meeting will allow to discuss the issues of self-repair, creation/altering of organisms as well as bioethics/biosafety from multiplicity of perspectives.
Public Programme
Friday, September 29, 2017
- 12:00 Workshop with Technarium “Lichen biohacking: revealing the secrets of the forgotten part of the forgotten kingdom” and Fingerprint workshop. „Sodų 4“, Sodų Str. 4, Vilnius
- 17:00 Keynote lectures: Ursula Damm, Gabrielius Jakutis. Life Sciences Center, Saulėtekio Al. 7, Vilnius
- 18:00 Panel/Discussion “Bioethics, biosafety, creation of organisms”. Participants: Ursula Damm, Gabrielius Jakutis, Mindaugas Gapševičius, Gediminas Drabavičius. Moderation: Kristupas Sabolius. Life Sciences Center, Saulėtekio Al. 7, Vilnius
Saturday, September 30, 2017
- 12:00 Workshop with Vilnius-Lithuania iGEM / “How genetic modification influences the functioning of bacteria?”. Life Sciences Center, Saulėtekio Al. 7, Vilnius
- 17:00 Internal meeting. Project space „Sodų 4“, Sodų Str. 4, Vilnius
- 19:00 “Self-repair" lab. "Self-repair" is conceived and realized by Mindaugas Gapševičius in collaboration with Lina Rukevičiūtė, Gailė Griciūtė, Vilnius-Lithuania iGEM team, and Technarium. Project space „Sodų 4“, Sodų Str. 4, Vilnius
"Self-repair" Lab
Conceived and realized by Mindaugas Gapševičius in collaboration with Lina Rukevičiūtė, Gailė Griciūtė, Vilnius-Lithuania iGEM team, and Technarium. Project space „Sodų 4“, Sodų Str. 4, Vilnius
Recent workshops on making penicillin at home and research on how to clone one’s own body have opened up a relatively unexplored field of DIY practices related to experiments with the body. On the other hand, similar experiments are often associated with AI in science fiction movies and novels.
One of the better known self-surgeries under “real-life conditions” was performed by Leonid Rogozov. In 1961 during his expedition to the Antarctic, which at that time was not really an inhabited place, Rogozov performed an appendectomy on himself. While humanity dreams about space travel, we often forget to ponder the question of “What if…?” What if there is no chance of asking others for help, fulfilling one or the other task? What if certain experimentation is restricted by law? There are also other related questions, like “How far can I experiment with my own body?” or “To whom do parts of my body belong if they are detached from my body?
In the context of this event, self-repair is a reference to non-traditional cases where certain social considerations are excluded under existing circumstances, or a reference to the contexts of malfunctioning systems, especially of those related to one’s own body. Self-repair is about an ability to identify and to fix one’s own systems. Self-repair is also about experiments that might not be tolerated by society and that might instead be considered unethical.
[un]ethical
1. Gene editing
Paveldima informacija, kurią organizmai perduoda iš kartos į kartą, yra sudaryta iš funkcinių vienetų, vadinamų genais. Jie apibrėžia kiekvieną organizmo savybę, o skirtingi jų variantai nulemia požymių įvairovę. Genų sekos pokyčiai, dar vadinami mutacijomis, dažnai yra daugelio ligų, pavyzdžiui, I tipo diabeto ar vėžio, išsivystymo priežastis. Mokslininkų sukurti metodai leidžia redaguoti genus, pakeičiant juos kitais jų variantais arba ištaisant atsiradusias mutacijas. Visai neseniai buvo sėkmingai išbandytas ir žmogaus embriono genų redagavimas. Tai gali ne tik padėti įveikti nepagydomas įgimtas ligas, bet ir atverti kelius tobulesnių, viršesnių žmonių kūrimui.
2. GMO
Genų inžinerijos metodai atvėrė galimybes kurti genetiškai modifikuotus organizmus (GMO). Keičiant įprastą organizmų genetinį kodą, jiems dažniausiai suteikiamos naudingos savybės, pvz. gebėjimas gaminti reikalingas medžiagas, didesnis produktyvumas ar atsparumas ligoms. Šiuo metu GMO naudojami įvairiuose tyrimuose, vaistų gamyboje, genetiškai modifikuoto maisto (pavyzdžiui, auksinių ryžių ar herbicidams atsparių augalų) kūrimui. Toks platus GMO panaudojimas kelia daug su biosaugumu susijusių klausimų, kuriais siekiama atkreipti dėmesį į tokių organizmų paplitimo aplinkoje riziką. (gal dar pridėt panaudojimą blogiems tikslams kaip nors? )
3. Synthetic biology
Sintetinė biologija remiasi genų inžinerijos metodais, tačiau siekia patobulinti arba iš naujo sukurti visą biologinę sistemą ir ją panaudoti norimiems tikslams pasiekti. Tai galėtų būti mikroorganizmai, naudojami skaitmeninės informacijos saugojimui arba aplinkos taršos nustatymui ir valymui. Sintetinė biologija leidžia peržengti iki šiol egzistavusias biologijos ribas ir pereiti į neribojamą idėjų įgyvendinimo laisvę, kuriant organizmus, kuriems, matyt, natūraliai niekad nebuvo lemta atsirasti.
Controllable and flexible multi-plasmid system
The number of drawings introduce the controllable and flexible multi-plasmid system in which different, unique plasmid groups could be kept in a cell culture, and no plasmid group would be lost during cell replication. Current commercially available systems offer up to 5 different plasmids in a cell using different origin of replication (ORI) sequences that do not interfere with each other. The proposed systems should provide more stability and predictability.
Workshop “Lichen biohacking: revealing the secrets of the forgotten part of the forgotten kingdom”
Led by Technarium team: Eglė Marija Ramanauskaitė and Simona Bekeraitė aka Opit
Lichens are great symbiotic organisms, able to survive the most hostile conditions and forming the basis of the ecosystems in which other organisms are unable to grow. Lichens grow very slowly; some of their species are known as one of the oldest organisms on Earth. Unfortunately, lichens are yet largely understudied by scientists and misunderstood by the public. Molecular features of lichens are of particular importance due to their specific growing conditions and the variety of species – what mechanisms and materials influence lichen “longevity”? Can we use such mechanisms for ourselves, for example, solving the crisis of antibiotics. During this lichen biohacking workshop different types of DNA will be analysed aiming to uncover this underestimated source of useful information.
Workshop “How scientists employ bacteria to make them perform desired functions?”
Led by Vilnius-Lithuania iGEM: Gabrielius Jakutis, Miglė Kalvaitytė, Emilija Vasiliūnaitė
Transformation is one of the main methods in biotechnology, used to genetically modify microorganisms. During transformation, small circular DNA molecules, called plasmids, are incorporated into microorganisms, and genes, that programme new functions, are expressed to turn cells into micro-factories. Thus bacteria can produce products that humans need: from insulin to treat diabetes, to various enzymes, that supplement washing powder for stain removal.
This workshop, organized by Vilnius-Lithuania iGEM 2017 team, will show the main steps in enzyme-production – from identifying enzymatic activity in nature, to transforming the Escherichia coli bacteria and testing purified enzyme activity. Vilnius-Lithuania iGEM 2017 team will also help to find answers for questions such as how did the scientists “domesticate” microorganisms, what new tricks did they teach them and what biotechnological advances await us in the future?
Panel/Discussion “The Future of Life: Do We Understand What We Create?”
Bioethics, biosafety, creation of organisms
Participants: Ursula Damm, Gabrielius Jakutis, Mindaugas Gapševičius, Gediminas Drabavičius. Moderation: Kristupas Sabolius.
Keynote presentations: Ursula Damm, Gabrielius Jakutis
Synthetic biologists often refer to a famous quote by theoretical physicist Richard Feynman: “What I cannot create, I do not understand”. Today, the advancement of this field of science enabled the synthesis of customized genetic elements and systems for various applications on an unprecedented scale. Contemporaneously, this raised a wave of critical reconsideration of the role and meaning of human creation itself. Do we really understand what we create? Are we satisfied with current definitions of life? Who is in charge to define the future of humanity? What are the boundaries between human and non-human agencies?
Set along with the challenges of contemporary life, scientists are in a constant need to compare and contrast their definitions of creation, innovation and engineering of life with specialists in the humanities, social sciences and arts. This discussion creates an opportunity for collective thinking on the progression of synthetic biology and life sciences within the perspective of big themes of responsibility, safety and future of humanity.
In the first keynote presentation, Prof. Ursula Damm talks about experiences gained during the iGEM 2010 competition in a collaborative science & arts project. Referring to Jakob von Uexküll's biosemiotics, Damm will delineate a behavior-based approach for future Bioart projects. In the second keynote, Gabrielius Jakutis will present ethical issues and biosafety concerns relevant to the field of synthetic biology and the construction of synthetic life, as well as explain the importance of establishing a mutual partnership between scientists, lay public, and specialists of social sciences and arts.
Collaborators
Prof. Ursula Damm holds Media Environments chair at the Bauhaus University Weimar. Her artistic work incorporates the media-based deployment of living environments and interactive spaces.
Gediminas Drabavičius is a PhD student at the department of Protein-Nucleic Acid Interaction, where he works on basic CRISPR-Cas biology. His worldview is built upon interests in philosophy, science and technology.
Mindaugas Gapševičius is a PhD candidate at Bauhaus University, Weimar, where he holds an artistic associate chair. His artworks question the creativity of machines and do not presume humans to be the only creative force at work.
Gabrielius Jakutis is the last-year medical student at the Vilnius University and currently is preparing for the international synthetic biology competition with Vilnius-Lithuania iGEM team.
Lina Rukevičiūtė has graduated from Central Saint Martin's College of Art&Design, London, and Vilnius University, Vilnius, and is currently involved in local and international contemporary art and educational art projects.
Kristupas Sabolius is an associate professor of philosophy at Vilnius University (Lithuania) and a Fulbright Scholar alumnus at SUNY (Stony Brook). He is the author of a number of books as well as numerous essays, signalizing the contradictory function of imagination, appearing in all the major theories of Western thought.
Technarium is community-operated space in Vilnius, where people with technology-related interests can share their knowledge and skills. Collaborators include Eglė Marija Ramanauskaitė and Simona Bekeraitė aka Opit.
Vilnius-Lithuania iGEM is the premiere student team competition in Synthetic Biology. Collaborators include Gabrielius Jakutis, Miglė Kalvaitytė, Emilija Vasiliūnaitė.
Credits
The event is organized by Institutio Media in collaboration with Vilnius-Lithuania iGEM and Technarium. It is kindly supported by the Nordic Culture Point, Lithuanian Council for Culture and the Ministry of Culture of the Republic of Lithuania, Vilnius Municipality, Vilnius university and International Semiotics Institute of Kaunas University of Technology.
More information on the project http://www.howto-things.com