Team:Northwestern/Team
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Revision as of 21:08, 10 September 2014
Meet the team!
Tiffany Kwakwa
Tiffany loves french fries and the colors pink and sea foam green. She is a rising junior studying Environmental Engineering and how to recycle and reuse everything. In her spare time she can be found in bakeries or drinking tea.
Kristi Lui
Kristi has an odd sense of humor and is basically the wild child. When not pipetting, she’s usually watching one of many TV shows (but mainly Dexter) or studying for the MCAT.
Mitch Perkins
Mitch is a potential Anthropology major, but currently focusing on Biology. Constantly greeting team members with a “Yo!” and sharing pictures of his dog, there is no one else as chill, except maybe the -80 fridge.
Sharon Chen
When not studying for the MCAT, Sharon is in the lab or sleeping. Mainly sleeping. A rising senior Art History and Biology major, she loves cherries and expensive oatmeal.
David Lee
David is a rising star who has also risen into our hearts with his wit and charm. The other departments are jealous that he chose Biomedical Engineering. His only vice is his addiction to Game of Thrones, finishing 10 episodes in one night after returning from a day at the lab.
Adam Baker
Adam is a bassist and speed reader, going through multiple books in one sitting as well as the technical papers related to our project. He’s a rising junior Chemical Engineer who we fall back on for knowledge and fact recollection.
Abdullah Memon
Abdullah has been graced with the gift of amazing handwriting and tasteful quips. He’s a rising junior on a pre-med track to saving lives and making fat stacks.
Meet the advisors!
Dr. Josh Leonard Assistant Professor of Chemical and Biological Engineering
Our group creates novel biological systems that perform customized, sophisticated functions for applications in biotechnology and medicine. Using the tools of synthetic biology, protein and biomolecule engineering, systems biology, and gene therapy, we develop technologies for manipulating and coordinating complex multicellular functions. A central area of interest for our group is controlling the function of a complex biological network - the human immune system – by engineering novel biomolecules and programmable cell-based “devices” to create novel, customized immune functions. By enabling clinicians to modify local immune responses in a patient- and disease-specific fashion, we are overcoming barriers to treatment for conditions ranging from cancer and chronic infections to autoimmune disease and transplant rejection.
Our group creates novel biological systems that perform customized, sophisticated functions for applications in biotechnology and medicine. Using the tools of synthetic biology, protein and biomolecule engineering, systems biology, and gene therapy, we develop technologies for manipulating and coordinating complex multicellular functions. A central area of interest for our group is controlling the function of a complex biological network - the human immune system – by engineering novel biomolecules and programmable cell-based “devices” to create novel, customized immune functions. By enabling clinicians to modify local immune responses in a patient- and disease-specific fashion, we are overcoming barriers to treatment for conditions ranging from cancer and chronic infections to autoimmune disease and transplant rejection. link
Our research aims to engineer biological systems for compelling applications in medicine and biotechnology. We focus on cell-free systems, with particular emphasis on protein synthesis and metabolism. Engineering cell-free systems both tests our understanding of how life works and generates useful, cost-effective factories for manufacturing human therapeutics and valuable biochemicals that are difficult to make in vivo. Our approach is to integrate fundamental research and engineering design principles with technology development.
Our interdisciplinary efforts take advantage of synergies at the crossroads of biological and engineering science. They represent a bottom-up approach to synthetic biology. The key idea is that design and construction of biological systems will become easier and more reliable if we can develop foundational technologies that partition biology into simple modular pieces that we can directly manipulate and control. To this end, it is desirable to reduce the complexity of existing biological systems and remove unnecessary overhead (e.g. unnecessary genes and evolutionary baggage). Cell-free systems, which are decoupled from the genetic architecture of the cell, offer a unique platform to address this need. They reduce complexity, lack structural boundaries, are free from cell viability constraints, and can direct catalytic resources towards a single objective. As a result, cell-free systems promise to catalyze a new paradigm for studying, tuning, and controlling life. link
Dr. Mike Jewett Assistant Professor of Chemical and Biological Engineering
Dr. Keith Tyo Assistant Professor of Chemical and Biological Engineering
What we do Microbes must cope with harsh, rapidly changing environments to survive. To do this, microbes have developed sophisticated mechanisms to (a) sense the changes in the environment, and (b) respond quickly to these changes to protect itself from harm or capitalize on an opportunity. Our lab seeks to rewire these fundamental input/output relationships to program cells to do useful things for mankind in a paradigm called synthetic biology. Inputs: We study methods to modify existing environmental detection sensors in yeast and modify them to detect new analytes. Outputs: We investigate ways microbes modify their metabolic networks and use these modifications to increase production of a given metabolite.
Why we do itSynthetic biology offers a disruptive technology that has vast potential to impact the most important facets of our lives. The way we diagnose diseases, the drugs we use, the fuels we put in our cars, the plastic that is used in our potato chip bag - we have the opportunity to improve the sustainability of our lifestyle. And by reducing costs, we can make aspects of our lifestyle available to those who could not otherwise afford it. We hope to offer technical contributions that, simply put, make the world a better place.link
info on Mordacq's research
Dr. John C Mordacq Distinguished Senior Lecturer of Biological Sciences at Northwestern University
Meet the grad students who helped us!
Will Bothfeld When there is a will, there is a way
Graduate Student in Chemical Engineering, Started 2012 University of Wisconsin – Madison, B.S. Biochemistry & Biology, 2010 Project: Experimental Metabolic Engineering
Karthik Sekar
PhD Candidate in Chemical Engineering, Started 2010 University of North Carolina at Chapel Hill, B.S. Biomedical Engineering, 2009 Project: Computational & Experimental Metabolic Engineering
Sarah Steinbrook
Graduate Student in IBiS, Started 2014 Ohio University, B.S. Molecular Biology Project: Signaling Engineering
Joe Muldoon
Interdisciplinary Biological Sciences Graduate Program (IBiS) B.S. in Biology, B.S. in Chemistry, University of Virginia 2013 Lab member since 2014 (co-advised with Neda Bagheri) Research Interests: Systems and synthetic immunology and “knowing is half the battle.”
Andrew Youngermember of Leonard lab
Interdisciplinary Biological Sciences Graduate Program (IBiS)
B.S. in Molecular Genetics, University of Rochester 2011
Research Interests: Bacterial Synthetic Biology, Metabolic engineering