Search
Establishing programmable liposome fusion to enable synthetic cell growth (BEP/MEP)
Short description: To accomplish sustained growth and division, synthetic cells must expand their membrane surface. Providing extra lipids…
/en/faculty-of-applied-sciences/about-faculty/departments/bionanoscience/research/research-labs/koenderink-lab/student-projects/establishing-programmable-liposome-fusion-to-enable-synthetic-cell-growth-bep-mep
Evolutionary approach to building a synthetic cell (BEP/MEP)
Short description: smart DNA libraries inside liposomes using a cell-free expression system (PURE system) and sort the vesicles displaying…
/en/faculty-of-applied-sciences/about-faculty/departments/bionanoscience/research/research-labs/koenderink-lab/student-projects/evolutionary-approach-to-building-a-synthetic-cell-bep-mep
Mechanobiology of in vitro cartilage tissues (BEP/MEP)
Short description: In connective tissues, cells are embedded in a support matrix composed of a complex 3D network of extracellular…
/en/faculty-of-applied-sciences/about-faculty/departments/bionanoscience/research/research-labs/koenderink-lab/student-projects/mechanobiology-of-in-vitro-cartilage-tissues-bep-mep
Building a living cell from scratch using microfluidics (BEP/MEP)
Description Throughout the course of evolution life has developed a staggering complexity at the cellular level. To shed light on the…
/en/faculty-of-applied-sciences/about-faculty/departments/bionanoscience/research/research-labs/koenderink-lab/student-projects/building-a-living-cell-from-scratch-using-microfluidics-bep-mep
Development of a microfluidic device to study synthetic cell division (BEP/MEP)
Description The physical process of cell division, or cytokinesis, is the mechanism by which a parent cell divides into two daughter cells.…
/en/faculty-of-applied-sciences/about-faculty/departments/bionanoscience/research/research-labs/koenderink-lab/student-projects/development-of-a-microfluidic-device-to-study-synthetic-cell-division-bep-mep