- About Us
- People
- Undergrad
- Graduate
- Research
- News & Events
- Outreach
- Equity
- _how-to
- Congratulations to our Class of 2021
- Archive
- AKCSE
- Atlas Tier 1 Data Centre
Biophysics Journal Club
A hydraulic instability drives the cell death decision in the nematode germline
Koushik Bar, ¶¡ÏãÔ°AV Physics
Location: Online
*To request access to the videoconference, email dsivak@sfu.ca
Synopsis
Nicolas T. Chartier, ..., Frank Julicher, and Stephan W. Grill
Nature Physics (2021).
Authors' Abstract:
Oocytes are large cells that develop into an embryo upon fertilization. As interconnected germ cells mature into oocytes, some of them grow—typically at the expense of others that undergo cell death. We present evidence that in the nematode Caenorhabditis elegans, this cell-fate decision is mechanical and related to tissue hydraulics. An analysis of germ cell volumes and material fluxes identifies a hydraulic instability that amplifies volume differences and causes some germ cells to grow and others to shrink, a phenomenon that is related to the two-balloon instability. Shrinking germ cells are extruded and they die, as we demonstrate by artificially reducing germ cell volumes via thermoviscous pumping. Our work reveals a hydraulic symmetry-breaking transition central to the decision between life and death in the nematode germline.