Duke’s Developmental & Stem Cell Biology PhD unravels how single cells pattern embryos and regenerate tissues. Candidates film zebrafish heart regrowth with light-sheet microscopy, program iPSC-derived organoids, and CRISPR record lineage decisions in situ. Collaborations with Duke Health translate discoveries into cell-therapy trials, while ethics courses probe the societal stakes of embryoid modeling.
Single-cell multi-omics atlas of limb bud patterning
CRISPR lineage recorder tracking neural crest migration
Optogenetic control of Wnt signaling in intestinal organoids
Biomechanical modeling of convergent extension movements
Synthetic hydrogel niche improving hematopoietic stem expansion
Deep-learning segmentation of light-sheet embryogenesis movies
In vivo reprogramming of glia to neurons after spinal injury
Policy brief on ethical frameworks for human gastruloids
VR teaching tool for vertebrate axis specification
Citizen-science planarian regeneration assay kit
AI design of morphogen gradient sensors
Organoid–microbiome co-culture to study gut development
Blockchain audit of clinical-grade stem-cell line provenance
Mathematical model of somitogenesis clock robustness
Public pop-up exhibit on regenerative animals
Build the blueprint for regeneration with Duke’s cutting-edge program.
Whether it's Machine Learning, Data Science, or Web Development, Collexa is here to support your academic journey.
"Collexa transformed my academic experience with their expert support and guidance."
Computer Science Student
Reach out to us for personalized academic assistance and take the next step towards success.
