
PhD Graduate Student, MIT ChemE
B.S. Chemical Engineering, Clemson, 2019
Research Interests
Reprogramming, p53, epigenetics
Publications
- Beitz AM, Teves, J, Oakes, CG, Johnstone, CP Wang, NB, Brickman, JM and Galloway, KE. Cells transit through a quiescent-like state to convert to neurons at high rates. bioRxiv. 2024.
- Wang NB, Adewumi HO, Lende-Dorn BA, Beitz AM, O’Shea TM, and Galloway, KE.Compact transcription factor cassettes generate functional, engraftable neurons by direct conversion. Cell Systems. 2025.
- Wang NB, Lende-Dorn BA, Adewumi HO, Beitz AM, Han P, O’Shea TM, and Galloway, KE. Proliferation history and transcription factor levels drive direct conversion to motor neurons. Cell Systems. 2025.
- Beitz, AM, Oakes, CG and Galloway, KE. Synthetic gene circuits as tools for drug discovery. Trends in Biotechnology. 2022.
- Kabaria SR, Bae Y, Ehmann ME, Beitz AM, Lende-Dorn BA, Peterman EL, Love KS, Ploessl DS, Galloway KE. Programmable promoter editing for precise control of transgene expression. bioRxiv. 2024.
- Wang, NB, Beitz, AM, Galloway, KE. Engineering cell fate: Applying synthetic biology to cellular reprogramming. Current Opinion in Systems Biology. 2020.
Beyond the lab
Baseball
Contact
Google Scholar
Homepage
abeitz (at) mit.edu