Title

Computational Prediction of Mutagenesis in Glycine max Rubisco Activase Monomer for Increased Thermal Stability

Authors

Catherine B. Emanuel, Washington University in St. Louis
Hamza Haq '21, Illinois Mathematics and Science AcademyFollow
Vasanth Ramesh '21, Illinois Mathematics and Science AcademyFollow
Jaden Wang '21, Illinois Mathematics and Science AcademyFollow
Angela Ahrendt, Illinois Mathematics and Science AcademyFollow
Sarah Stainbrook, Washington University in St. Louis

Document Type

Conference Paper/Presentation

Conference

Presented at the 2021 Synthetic Biology, Engineering, Evolution and Design (SEED) conference

Publication Date

6-2021

Advisor(s)

Angela Ahrendt, PhD; Illinois Mathematics and Science Academy

Sarah Stainbrook, PhD; Washington University in St. Louis

Disciplines

Biochemistry | Bioresource and Agricultural Engineering | Other Biochemistry, Biophysics, and Structural Biology | Plant Sciences

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 4.0 International License.

Recommended Citation

Emanuel, C. B., Haq, H., Ramesh, V., Wang, J., Ahrendt, A., & Stainbrook, S. (2021). Computational Prediction of Mutagenesis in Glycine max Rubisco Activase Monomer for Increased Thermal Stability.
Retrieved from: https://digitalcommons.imsa.edu/student_pr/77