Harvard’s MCB BS equips students to investigate gene regulation, signal transduction, and cellular architecture using CRISPR editing, live-cell imaging, and omics technologies. Partnerships with the Broad Institute and Dana-Farber Cancer Institute immerse undergraduates in cutting-edge research tackling cancer, neurodegeneration, and infectious disease. Graduates excel in biotech, medicine, and doctoral programs.
Live-cell imaging of mitochondrial dynamics under stress
CRISPR screen identifying antiviral host factors
Single-cell transcriptome atlas of developing retina
Fluorescent reporter for kinase-activity biosensing
Bioinformatic pipeline for splice-variant prediction
Organoid model of intestinal stem-cell renewal
Capstone on synthetic gene circuits for metabolic engineering
Proteomics study of drug-resistance mechanisms in leukemia
Study of phase-separated biomolecular condensates
Design of siRNA therapeutics with nanoparticle delivery
Public workshop on genome-editing ethics
Data visualization of ribosome-profiling datasets
Comparative genomics of extremophile DNA repair genes
Field trip documentary on biotech start-up ecosystems
Modeling of feedback loops in circadian gene networks
Lab outreach program for local high-school students
3D printed model of protein-folding landscapes
Interrogate and engineer the cell’s machinery with Harvard’s MCB program.
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