Coordination of Organelle Inheritance During Polarized Cell Division
During cell division, many cellular materials cannot be produced de novo and therefore must be partitioned equally between the two daughter cells. In the budding yeast Saccharomyces cerevisiae, material produced in the mother cell must be actively transported to the growing daughter cell during cell division. Molecular pathways of how individual organelles are transported to the daughter cell have been well characterized. However, recent studies have shown that cellular organelles are largely interconnected, suggesting that they exist more as an extensive network rather than independent entities. My research aims to determine how organelle positioning and inheritance are orchestrated in order to maintain higher order organellar networks. By monitoring the redistribution of organelles throughout division using live cell imaging, I will determine the precise order in which organelles are transported from mother to daughter cells. With a better understanding of the temporal division, I can then interrogate the molecular mechanisms underlying this process by perturbing inheritance of specific organelles and examining the effects on organelle partitioning.
Message to Sponsor
- Major: Molecular and Cell Biology
- Sponsor: Pergo Fund
- Mentor: David Drubin