UC’s PhD in Genetics & Plant Biology unites genomics, physiology, and bioinformatics to improve crop resilience, nutritional quality, and environmental sustainability.
CRISPR knock-in of drought-responsive transcription factors in maize
High-throughput phenotyping quantifying photosynthetic efficiency
RNA-seq analysis of salt-tolerance pathways in quinoa landraces
Metabolic engineering of yeast producing plant-derived flavonoids
Root microbiome manipulation enhancing phosphorus uptake
Genome-wide association of heat tolerance in tomato pollen viability
Drone multispectral imaging detecting nutrient deficiencies in orchards
Synthetic promoter library engineering nitrogen-use efficiency
Proteomic profiling of heat-shock response across cereal crops
Life-cycle analysis of perennial grains for soil-carbon sequestration
Machine-learning off-target prediction for plant CRISPR editors
Digital twin greenhouse optimizing LED spectra for vertical farming
Policy brief on gene-edited crop regulation harmonization
Comparative epigenomics of climate-adaptive traits in wild sunflowers
Mobile app guiding smallholders in real-time pest diagnostics via AI vision
3-D printed microfluidic chips studying pollen–stigma interactions
Citizen-science seed-exchange platform preserving landrace diversity
White paper on equitable access to gene-editing tech in the Global South
Conference on plant synthetic biology and climate-resilient agriculture
Workshop training farmers in open-source genomics data platforms
Engineer resilient crops with UC’s genetics-driven PhD.
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