Experimental Biophysics — Chromatin Nano-Architecture & DNA Repair

Graduate Researcher / Master's Candidate · May 2017 – Aug 2018

Advanced research utilizing super-resolution microscopy and computational analysis to investigate DNA repair mechanisms and chromatin nano-architecture.

Technologies

MATLABLinuxRPythonCOMBO-FISHSPDMDBSCAN

Contributions

Experimental Design: Developed and executed research projects focused on DNA repair pathways and super-resolution imaging of chromatin structures.
Data Analysis & Modeling: Leveraged MATLAB, R, and Python to process complex imaging data and perform quantitative analysis of nano-scale structures.
Academic Leadership: Managed international research collaborations and mentored several Bachelor and Master's students throughout the project lifecycle.

Outcome

Published research findings in multiple peer-reviewed journals and secured third-party funding for continued scientific investigations.