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| − | <img class = "headerimage" src = "https://static.igem.org/mediawiki/2015/b/be/Team-MIT-Banner3.jpg"> | + | <img class = "headerimage" src = "https://static.igem.org/mediawiki/2015/a/ab/Team-MIT-Psbanner.jpg"> |
| − | </div>
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| − | <div>
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| − | <p id = "title">
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| − | OUR TEAM
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| − | </p>
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| | </div> | | </div> |
| | + | <div id = "spacer"> |
| | + | <img src = "https://static.igem.org/mediawiki/2015/6/67/Team-MIT-SymbolFront.png" align = "center" class = "col-md-12"> |
| | + | <div id = "title"> |
| | + | Project Overview |
| | + | </div> |
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| − | <div id = "team">
| + | <div class = "subtitle">Introduction to Microbial Consortia Engineering for Consolidated Bioprocessing |
| − | <div id = "bios" align = "center"> | + | |
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/c/c9/Team-MIT-Ayesha.png">
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| − | <div class = "names">
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| − | Ayesha Bajwa
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| − | <div class = "text">
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| − | Ayesha is a rising sophomore majoring in Electrical Engineering and Computer Science, although she finds practically every discipline at MIT interesting. From iGEM, she hopes to gain wet lab experience of substance and a context in which to think about the endless possibilities of synthetic biology. She is particularly excited about the intersection of synthetic biology, computer science, and neuroscience. Beyond academics, Ayesha enjoys singing, photographing, being outdoors, and perusing Wikipedia.
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| − | </div>
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| − | <div class = "bio">
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/d/d5/Team-MIT-Nicholas.png">
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| − | Nicholas Brancazio
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| − | Nick is a rising junior in the Biology department at UMass Amherst. At school, he works with electroconductive bacteria called Geobacter for biosensing applications. He is excited to be living in Cambridge and working at MIT over the summer, especially for synthetic biology. Nick hopes to develop new methods of metabolic wiring between multiple bacteria to create a highly integrated consortium with unique intercellular properties. He is currently working on achieving the world record for the tastiest stir-fry containing the most ingredients, and is also a shoe-in for the most likely to drop a beat while working in lab.
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| − | <div class = "bio" align = "left">
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/b/bb/Team-MIT-Molly.png">
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| − | Molly Brennan
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| − | Molly Brennan is a rising sophomore at MIT majoring in Chemical-Biological Engineering or Biological Engineering. She became interested in synthetic biology after learning about the field through Lemelson-MIT in high school. iGEM seemed like the perfect way to begin contributing to the field of synthetic biology. She hopes that this project will reduce reliance on nonrenewable resources, such as those composed of methane. In the future, she hopes to further explore the medical applications of biological engineering and synthetic biology. In her free time, she enjoys dancing in MIT's DanceTroupe and sailing.
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| − | <div class = "bio" align = "left">
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/b/b4/Team-MIT-Margorie.png">
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| − | Marjorie Buss
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| − | Marjorie Buss is a rising sophomore at MIT majoring in Chemical-Biological Engineering and minoring in Math. She is very excited about iGEM’s project this year because of its potential to contribute to alternative energy technology. She is also excited to learn about modeling metabolic systems and about synthetic biology, and to gain wet lab experience. Her previous experiences include working in a chemical engineering lab at MIT during her freshman year, and interning in a thermal coatings and contamination engineering lab at NASA Goddard last summer. Outside of iGEM, Marjorie is a member of MIT’s lightweight rowing team, and holds leadership positions in MIT’s energy club in Alpha Epsilon Phi sorority. She also enjoys running, playing tennis, reading, and being texted random things.
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/a/a1/Team-MIT-Ryan.png">
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| − | Ryan Chung
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| − | Ryan Chung is a rising Sophomore in Computational Biology at MIT. He is excited to work with the iGEM team as there are many opportunities to learn the cutting edge techniques associated with synthetic biology and hopes to apply some of his previous Computer Science knowledge for the project. He is interested in this project in particular because of the interesting applications of biofuels. In his free time he enjoys going out, staying in, chasing Canadian Geese and beatboxing battles in lab.
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/9/99/Team-MIT-Alyssa.png">
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| − | Alyssa Dayan
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| − | Alyssa is a freshman studying Mathematics, Computer Science and Physics (she doesn't really know what she's doing with her life). She had minimal biology experience in high school but has been excited about synthetic biology ever since she was given a tour around a biohack-space in London and learnt about the possibilities for "hacking" real living organisms, such as growing human chins on the backs of mice or maybe even mouse chins on the backs of humans. She is looking forward to applying mathematical computery techniques to the project and maybe picking up a few squishy lab skills too. Outside of iGEM Alyssa enjoys bobbing her head to electronic music and scavenging for free food.
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/0/0d/Team-MIT-Jesse.png">
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| − | Jesse Gibson
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| − | Jesse Gibson is a rising sophomore in course 6-7: computer science and molecular biology. He became interested in engineering after participating on his high school robotics team and decided to explore synthetic biology as an interesting application of engineering to complex, micro-scale systems. He is particularly interested in the intersection of technology and biology as well as the design of genetic circuitry to emulate logical input-output systems. In his free time, he enjoys reading, biking, and playing Super Smash Bros. (Melee, of course).
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/3/36/Team-MIT-Wendi.png">
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| − | Wendi Guraziu
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| − | Wendi Guraziu is a rising sophomore in the Biology department at MIT. She got hooked on bio in high school and learned about iGEM and synthetic biology in her high school bio and biotechnology classes. She is very excited about the potential of synthetic biology to improve quality and efficiency for the huge number of possible applications in both home and industrial settings. Wendi loves to travel and go on long walks, try tasty foods from every country Italy to Iraq, cheer on her Chicago Blackhawks, and dance like nobody's watching even when everybody's watching. Outside of iGEM, she is involved in Society of Women Engineers and her sorority, Alpha Chi Omega.
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| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2015/c/c7/Team-MIT-Nathan.png">
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| − | Nathan Hunt
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| − | Nathan is a junior at MIT studying molecular biology and computer science. He came to MIT to study biology and is often asked how the two fields of his major work together. There are all sorts of great reasons to study biology and computer science, but he really just added it to his major for fun (he’s a believer that one ought to enjoy life, even work). He finds great joy in creating, whether it’s building a complex program up from simple keywords or an interesting biological system. His interest in these two fields led him to be captured by iGEM’s clever poster about programming life. Despite being interested in learning very many things, he’s focusing on biology because he hopes to use his biology and computer and any other sort of knowledge to heal people. On top of MIT and research, Nathan is very involved in his church; he served a two year church mission in Germany and would love it if you would speak German with him. He also enjoys sailing, hiking, learning everything, and wishes he knew robotics.
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| − | Ashti Shah
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| − | Ashti Shah is a junior at the Advanced Math and Science Academy Charter School in Marlborough, MA. She is intrigued by the combinatorial possibilities of synthetic biology. She aspires to pursue a career in medicine. Being the foodie she is, you will most probably find her sampling the best places to eat during her lunch breaks. Ashti is a very jubilant person and enjoys a variety of activities including swimming, speech and debate, baking, travelling, reading, and any DIY project.
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| − | Niam Shah
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| − | Niam Shah is a rising junior at the Massachusetts Academy of Math and Science. He is excited to be part of the iGEM team as he is very interested in synthetic biology –combining DNA to construct interesting and useful organisms to carry out constructive tasks is fascinating. He hopes to study medicine in college and become a cardiologist when he grows up. When Niam is not doing homework or sleeping, he is probably playing tennis, snowboarding, or attempting to solve senseless, convoluted math problems.
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| − | Sivateja Tangirala
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| − | Sivateja is a rising high school senior from Texas who is passionate about molecular biology, neuroscience, and linguistics. He qualified as a Semifinalist in the 2015 USA Biology Olympiad and was a Scripps National Spelling Bee semi-finalist. He has interned with a cognitive linguistics professor last summer. His favorite sport is Basketball.
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| − | Joshua Charles Woodard
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| − | Joshua is a rising sophomore majoring in Mechanical Engineering and minoring in Biology and Chinese. He's particularly interested in the intersection of biology and technology, especially as it pertains to prosthetic systems and mechanical chassis that will host SKYNET AI. He found iGEM particularly exciting for the first hand exposure it would provide in utilizing the synthetic biology toolkit and discovering the plethora of applications it could have to problems around the world. In his free time, he's a jazz violinist, freelance photographer and graphic designer, and often finds himself matching with the upholstery of his immediate surroundings.
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| | </div> | | </div> |
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| − | <div class = "subtitle"> | + | <div class = "text" align = "center"> |
| − | <p> | + | Microbial consortia engineering has the potential to more effectively generate useful products, ranging from biofuels to specialty chemicals, than current technology based on mono-cultures of bacteria (Shong 2012). Communities of microbes can better handle the complex process of the conversion of substrates to products by dividing the metabolic load among multiple species. In addition, communities of microbes exhibit increased production rates, metabolic efficiency, and robustness to changes in environmental conditions relative to mono-cultures due to synergistic interactions between species. |
| − | ADVISORS
| + | Currently, there are many challenges in creating synthetic microbial consortia. For instance, natural microbial communities have evolved to be capable of maintaining homeostasis, but synthetic communities are not. When creating synthetic microbial consortia, one must ensure that the members do not out-compete each other, do not exhaust the resources in their environments, and do not have unstable genetic compositions. Thus, engineering microbial consortia requires the establishment of population control systems. The use of synthetic microbial consortia for consolidated bio-processing also faces the same challenges as the use of mono-cultures, including economic feasibility relative to current methods of production. |
| − | </p> | + | |
| | </div> | | </div> |
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| − | <div id = "bios" align = "center"> | + | <div class = "subtitle">Our Approach - Designing a Co-Culture for Conversion of Cellulosic Waste to Biodiesel |
| − | <div class = " bio" align = "left"> | + | |
| − | <img class = "picture" src = "https://static.igem.org/mediawiki/2014/3/32/MIT_2014_Headshot_Atta.png">
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| − | Lyla Atta
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| − | Lyla Atta is a rising junior in Biological Engineering. She is very interested in cellular biology and biochemistry, and especially interested in applications of these areas to neurobiology. At some point in the far (or near?) future she wishes to find science-based answers to questions that were previously thought to be philosophical: what is thinking, understanding and learning? How do all these processes occur in systems that are made up of mere chemicals. Lyla was part of the 2014 MIT iGEM team. It was the first time she had the opportunity to get some laboratory experience (which she was in dire need of, having never worked in a lab before). She is now working with some of her fellow 2014 iGEM team members on a spin-off project while mentoring this year's iGEM. Outside science-related things, Lyla is very interested in education policy and enjoys outdoor activities.
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| − | Erik Ersland
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| − | Erik Ersland is a Junior majoring in Biological Engineering. Erik is participating in iGEM because it offers a good opportunity to contribute useful work to the scientific and engineering community and because it provides training and perspective that will help him continue to contribute in the future. Previous experience includes two summers interning at Clearwater Analytics as a software developer and numerous garage based projects. He is interested in research that will improve human quality of life, namely technologies with applications in regenerative medicine. Hobbies outside of iGEM include learning about new things, cooking (often for groups), sewing (things like plushies), and mechanical projects.
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| − | Eugene Lim
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| − | Eugene Lim is a postdoctoral associate in Mechanical Engineering at MIT. He works in the Soft Active Materials Laboratory led by Professor Xuanhe Zhao. He is excited to interact with the MIT iGEM community while learning the nuts and bolts of synthetic biology. In his spare time, he tutors high school students, falls off his surfboard (with alarming consistency), and roots for all Detroit sports teams.
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| − | Viirj Kan
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| − | Viirj Kan is a graduate student and researcher at the MIT Media Lab in the Tangible Media Group. Her research involves the development of interactive, material systems that enable humans to interact with digital and biochemical information. Currently she is working on organic materials that can be tuned, programmed and controlled for architectural, human-computer interaction, and biocompatible applications. Prior to MIT, Viirj was involved in a number of user experience and industrial design projects from consulting with early stage startups, to conducting human-robot interaction research at NASA Jet Propulsion Laboratory. She holds a Bachelor of Science in Environmental Design at Art Center College of Design.
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| − | Kyle Lathem
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| − | Kyle Lathem is a rising senior in biology and physics at MIT. Gifted in building wieners in Cuba. Had moderate success investing in rocking horses worldwide. Set new standards for working with Virgin Mary figurines in Naples, FL. Have some experience researching hula hoops in Atlantic City, NJ. Have a strong interest in working on yogurt on the black market. Spent 2002-2009 working with wooden trains in the aftermarket.
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| − | Christian Richardson
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| − | Christian Richardson is a rising junior majoring in Biological Engineering. He is interested in using biological engineering and synthetic biology in the battle to develop new therapeutic and diagnostic tools for use in hospitals and in the field. Last year he became involved in iGEM as a competitor and now wants to pass on his knowledge and teach a new generation of students. He enjoys rowing, skiing, kayaking, climbing, backpacking and generally being outdoors.
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| − | Brian Teague
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| − | Brian Teague is currently a postdoctoral research associate in Ron Weiss’ Synthetic Biology Group. He earned his B.A. in biochemistry and computer science from Rice University and his Ph.D. degree from the University of Wisconsin-Madison in Cellular and Molecular Biology. Brian has developed immense expertise in instrumentation for biological interrogation and his current research interests include the emergence of global behavior of population from local rules integrated into single cells.
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| − | <p> | + | We aim to create a stable and robust synthetic microbial consortia that converts agricultural waste, lignocellulose, into a useful product, biodiesel. Our system consists of a co-culture of Cytophaga hutchinsonii, an aerobic bacteria that rapidly digests crystalline cellulose, and Escherichia coli, which can grow on the sugars produced from cellulose degradation and is genetically modified to produce the fatty acid esters that comprise biodiesel. In addition to this existing metabolic link, we introduce a synthetic communication pathway to ensure a synergistic relationship between them. Our main focus is thus to ensure stable and efficient ratios of the populations of the bacteria through synthetic biology. In order to predict the interactions between the bacteria and design the communication network, we model the dynamics of our co-culture using whole-genome scale metabolic models with an approach called dynamic flux balance analysis. |
| − | INSTRUCTOR
| + | Our co-culture has many characteristics that make it better than current methods of generation of biodiesel and other products. It is a stable co-culture as opposed to a mono-culture, so it is capable of performing the complex task of conversion of the cellulosic waste into high-value products in one reactor. It does not require additional pre-processing steps of cellulosic substrate, reducing production costs. The ability of our co-culture to use cellulosic waste to produce biodiesel also makes it environmentally friendly, compared to other methods of fuel production. Also, our culture is resilient to environmental changes, which reduces operating costs because optimal operating conditions do not have to be maintained. In addition, our co-culture can be grown aerobically at room temperature, which also cuts down on operating costs. |
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| − | <div id = "bios" align = "center"> | + | <div class = "subtitle">General Applicability of Our Approach</div> |
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| + | Here, we demonstrate a robust, environmentally friendly, and economically effective system for production of biodiesel, but our system can be applied to the production of many different products. One could replace the biodiesel genes we have chosen for E. coli with genes of their choice to generate a desired product. In addition, our method of creating synthetic communication pathways to stabilize our synthetic microbial consortia is an extremely important contribution to the field of synthetic biology. One could use this approach to stabilize different co-cultures with bacteria of varying phenotypes and metabolisms, or be utilized modularly so that population ratio can be modified via inducible signal. |
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| − | Ron Weiss
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| − | Joined the BE and EECS faculties as dual associate professor (with tenure) starting in July 2009, having moved from Princeton University where he held comparable rank in their department of electrical engineering and with a joint appointment in their department of molecular biology. His degrees are double BA in Computer Science and Economics from Brandeis University (1992), followed by SM and PhD in EECS at MIT (1994, 2001). Professor Weiss is a prominent and widely respected figure in the emerging field known as ‘synthetic biology’, with emphasis on designing molecular circuits governing cell behavior using quantitative systems modeling approaches. He is expected to help lead MIT’s efforts in both synthetic biology and systems biology, and indeed to guide their integration.
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