Cell-based therapies are an exciting frontier in medicine. This field is built on a simple premise—cells can be engineered to recognize and treat various human diseases. The paradigm of cell-based therapy uses biosensors to interrogate a cell’s environment and distinguish disease from health, intracellular signaling pathways and genetic circuitry to...
Over the past fifty years, techniques for synthesizing and manipulating matter on the 1-100 nanometer scale have led to the development of nanoparticle-based approaches to both disease diagnosis and treatment. The modification of nanoparticles with biological macromolecules such as proteins and nucleic acids has led to the development of highly...
The engineering of human reproduction is one of the defining scientific advances of the past century. Methods to specifically engineer the testis have an equally long and rich history, and have experienced significant progress over the past two decades, leading to current-day breakthroughs which are shifting the paradigms by which...
Proteins represent a critical class of biomolecules, universally employed by all living organisms to fulfill essential structural, functional, and enzymatic roles necessary to support life. In nature, these polymers are composed generally of twenty natural amino acid (AA) building blocks, which can be modified with covalent adducts known as post-translational...
Platelets are circulating anucleate discs derived from megakaryocytes, and play major roles in hemostasis, inflammation, thrombosis, and vascular biology. Multi-phase culture systems for inducing in vitro platelet production from mature megakaryocytes have been explored to allow progenitor expansion, megakaryocyte maturation, and promotion of platelet formation and shedding. In this thesis,...