![]() ![]() The DGP program encompasses the entire medical school, including our lab and the Prindle Lab in the Center for Synthetic Biology. student here, please get in touch and let's talk about your interests! For admission, apply to the Northwestern DGP program. Please get in touch if you are interested in doing your research with us! Master's student positions: We take research students from Northwestern's Master of Science in Biotechnology Program (MBP). Research technician positions: Please send me your resume or CV, along with an explanation of what you're looking for out of your experience. ![]() Undergraduate research positions: Please send me a brief description of your previous experience (OK if this is primarily classes) and an explanation of why you're interested in working with us. We are looking for undergraduate researchers, research technicians, graduate student researchers, and postdoctoral fellows. Our work is interdisciplinary, and we are looking for people with many different backgrounds including biology, chemistry, physics, and computer science. Returned to LeTourneau University We're hiring! Returned to U-W MadisonĬassie Chrisman, Northwestern SynBREU Summer Researcher 2022. Sarah Fahlberg, RosettaCommons REU Summer Researcher 2022. student, University of Wisconsin-Madison, Biophysics Kyrollos Shenouda, Masters in Biotechnology researcher 2021.Īndres Lira, RosettaCommons Post-baccalaureate scholar 2021-2022. Matthew Jin, Northwestern SynBREU Summer Researcher 2021. student, Biophysics & Quantitative Biology, UIUC Will Howe, RosettaCommons REU Summer Researcher 2021. Currently lab manager, Maggie Lam Lab CU Anschutz Wes Ludwig, Research Technician 2019-2021. Radhika Dalal, RosettaCommons Post-baccalaureate scholar 2020-2021. Currently Process Engineer II, Kite Pharma Jonathan Chen, Masters in Biotechnology researcher 2020-2021. Returned to Scripps College, later SynBio Apprentice, Octant Bio Jordan Gewing-Mullins, Summer Researcher 2020. By combining computational design with large-scale experiments, we can push beyond the limits of the proteins found in nature. We also focus on designing improved protein therapeutics. These large-scale experiments help us build a general understanding of protein physics, and to create more accurate, predictive computational models for protein design. Our lab develops new tools to study samples of thousands of different proteins mixed together. Still, huge goals remain out of reach, because we have so much more to learn about the physics of proteins. We are in the middle of a revolution in computational protein design - the science of creating new proteins for unmet needs in health care, materials, and energy. Proteins are gigantic molecules that perform nearly all of life's essential functions: they break down your food, replicate your DNA, generate force for muscle contraction, capture light energy in photosynthesis, and identify viruses and other invaders in your body. ![]()
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