CRISPR-Cas9 Applications in Rare Genetic Disorders
Explored the use of CRISPR technology to target and correct mutations responsible for rare genetic conditions. The study focused on precision, off-target effects, and ethical considerations in genome editing.
Investigated the use of 3D-printed biocompatible scaffolds to support cell growth and tissue healing. The research aimed to improve scaffold material design for enhanced integration in regenerative medicine.
Conducted metagenomic analysis on gut microbiota to uncover correlations with neurological disorders such as anxiety and depression. Findings suggested potential pathways for probiotic intervention.
Synthetic Biology for Sustainable Biofuel Production
Focused on genetically modifying algae strains to increase lipid output for cleaner, more sustainable biofuel. The study combined synthetic biology and metabolic engineering for greener energy alternatives
Analyzed the efficiency and stability of lipid-based nanoparticles for mRNA delivery in therapeutic applications. This research contributed to ongoing advancements in vaccine and gene therapy delivery systems.
Worked on identifying protein and genetic biomarkers in blood samples to detect early-stage breast cancer. The project aimed to increase diagnostic accuracy and reduce the need for invasive screening procedures.
