Ben Mohr
About Ben Mohr
Ben Mohr serves as the Lead Cell-Free Scientist at LanzaTech in Chicago, Illinois, where he has worked since 2022. He has a background in biochemistry and synthetic biology, with previous roles at Oak Ridge National Laboratory and Tierra Biosciences.
Work at LanzaTech
Ben Mohr serves as the Lead Cell-free Scientist at LanzaTech, a position he has held since 2022. Based in Chicago, Illinois, he focuses on advancing cell-free synthetic biology, particularly in the area of protein synthesis. His role involves developing innovative approaches that contribute to the company's mission of transforming carbon emissions into sustainable products.
Previous Experience
Before joining LanzaTech, Ben Mohr worked at Oak Ridge National Laboratory as a Graduate Research Assistant from 2014 to 2019. He then transitioned to Tierra Biosciences, where he served as a Scientist from 2019 to 2021. His experience includes significant contributions to synthetic biology and the development of cell-free protein synthesis platforms aimed at engineering non-model microbes.
Education and Expertise
Ben Mohr holds a Bachelor of Science degree in Biochemistry and Evolution and Ecology from The Ohio State University, which he completed from 2010 to 2014. He furthered his education at the University of Tennessee-Knoxville, earning a Doctor of Philosophy (Ph.D.) in Energy Science and Engineering from 2014 to 2019. His expertise lies in cell-free synthetic biology, with a specific focus on protein synthesis.
Teaching Experience
During his academic career, Ben Mohr gained teaching experience as a Teaching Assistant at The Ohio State University from 2013 to 2014. In this role, he supported faculty in delivering course content and assisted students in understanding complex topics related to chemistry and biochemistry.
Research Contributions
Ben Mohr has contributed to the advancement of synthetic biology through innovative approaches in cell-free systems. His work includes the development of cell-free protein synthesis platforms that are specifically designed for engineering non-model microbes, which plays a crucial role in expanding the applications of synthetic biology.