Scott Christopher Lenaghan
Specialization: Synthetic Biology, Parasitology, Bioengineering, Biotechnology, Cell Biology
Since 2016, Scott C. Lenaghan has been an Assistant Professor within the Department of Food Science at the University of Tennessee, with an adjunct position in the Mechanical, Aerospace, and Biomedical Engineering (MABE) Department. After completing a PhD from Auburn University in Biological Sciences, and a two-year postdoc in the MABE Department at the University of Tennessee, he was promoted to Research Assistant Professor within MABE in 2011. In 2013 he accepted a Research Assistant Professor position at the Center for Renewable Carbon (CRC) to lead an ARPA-E funded project on single-cell biology and bioengineering. Upon successful completion of that project, he accepted his current position within the Department of Food Science and has established a nationally recognized lab focused on the development and use of synthetic biology in engineered systems. His research and expertise cover a wide-range of disciplines, with a primary focus on engineering biological systems, biomaterials, and devices that utilize cutting-edge synthetic biology tools and approaches. A goal of his research is to expand the current definition of synthetic biology beyond molecular biology tools, translating advances into synthetic/engineered constructs, such as micro/nanorobots, diagnostic devices, and smart materials. Commensurate with these goals, in 2018, he founded and serves as the Director of the Center for Agricultural Synthetic Biology (CASB) along with Dr. C. Neal Stewart, Jr. In addition to his research, he currently teaches a course on molecular parasitology to introduce students to underrepresented pathogens that cause significant damage to the overall quality of life of humans and animals.
Engineering biological systems, biomaterials, and devices that utilize cutting-edge synthetic biology tools and approaches to provide solutions for global food security & biomedical sciences.
Training undergraduate and graduate students in synthetic biology and its applications to a variety of fields. Currently teach special topics courses on synthetic biology & molecular parasitology.
2600 River Dr.
Knoxville, TN 37996-4591
- EdS, Biological and Biomedical Sciences, Other, Auburn University, 2008
Scott Christopher Lenaghan
2600 River Dr.
Knoxville, TN 37996-4591
- EdS, Biological and Biomedical Sciences, Other, Auburn University, 2008
Since 2016, Scott C. Lenaghan has been an Assistant Professor within the Department of Food Science at the University of Tennessee, with an adjunct position in the Mechanical, Aerospace, and Biomedical Engineering (MABE) Department. After completing a PhD from Auburn University in Biological Sciences, and a two-year postdoc in the MABE Department at the University of Tennessee, he was promoted to Research Assistant Professor within MABE in 2011. In 2013 he accepted a Research Assistant Professor position at the Center for Renewable Carbon (CRC) to lead an ARPA-E funded project on single-cell biology and bioengineering. Upon successful completion of that project, he accepted his current position within the Department of Food Science and has established a nationally recognized lab focused on the development and use of synthetic biology in engineered systems. His research and expertise cover a wide-range of disciplines, with a primary focus on engineering biological systems, biomaterials, and devices that utilize cutting-edge synthetic biology tools and approaches. A goal of his research is to expand the current definition of synthetic biology beyond molecular biology tools, translating advances into synthetic/engineered constructs, such as micro/nanorobots, diagnostic devices, and smart materials. Commensurate with these goals, in 2018, he founded and serves as the Director of the Center for Agricultural Synthetic Biology (CASB) along with Dr. C. Neal Stewart, Jr. In addition to his research, he currently teaches a course on molecular parasitology to introduce students to underrepresented pathogens that cause significant damage to the overall quality of life of humans and animals.
Engineering biological systems, biomaterials, and devices that utilize cutting-edge synthetic biology tools and approaches to provide solutions for global food security & biomedical sciences.
Training undergraduate and graduate students in synthetic biology and its applications to a variety of fields. Currently teach special topics courses on synthetic biology & molecular parasitology.