At Georgia Tech, the Biochemistry BS plunges students into the molecular dance that powers cells, from enzyme catalysis to CRISPR gene editing. State-of-the-art core facilities—think cryo-EM suites, mass-spec metabolomics, and high-throughput sequencing—let undergraduates test hypotheses typically reserved for PhD labs. Electives in synthetic biology and computational drug design round out a curriculum that positions grads at the vanguard of personalized medicine, agricultural biotech, and bio-entrepreneurship.
Directed-evolution of thermostable enzymes for industrial biocatalysis
CRISPR-based gene drive design for mosquito-borne disease control
Metabolomic profiling of cancer cell lines under hypoxic stress
Computational docking screen for novel SARS-CoV-2 protease inhibitors
Biosensor development for on-site detection of water contaminants
Synthetic pathway engineering for microbial production of bio-jet fuel
Structural analysis of antibody–antigen interactions via cryo-EM
Design of peptide-based hydrogels for tissue engineering scaffolds
Enzyme-kinetics study of antibiotic resistance mechanisms
Lab-on-a-chip microfluidic assay for rapid blood typing
Bioinformatics pipeline to annotate orphan enzymes in plant genomes
Protein-folding simulation using distributed GPU clusters
Yeast surface-display library for vaccine epitope mapping
Investigation of lipidomics changes during neuronal differentiation
Development of aptamer therapeutics targeting cancer biomarkers
Engineer molecules that heal and fuel—advance biotech with Georgia Tech biochemistry.
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