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A hydraulic instability drives the cell death decision in the nematode germline.

Nature physics (2021-11-16)
Nicolas T Chartier, Arghyadip Mukherjee, Julia Pfanzelter, Sebastian Fürthauer, Ben T Larson, Anatol W Fritsch, Rana Amini, Moritz Kreysing, Frank Jülicher, Stephan W Grill
ZUSAMMENFASSUNG

Oocytes are large cells that develop into an embryo upon fertilization1. As interconnected germ cells mature into oocytes, some of them grow-typically at the expense of others that undergo cell death2-4. 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 instability5. Shrinking germ cells are extruded and they die, as we demonstrate by artificially reducing germ cell volumes via thermoviscous pumping6. Our work reveals a hydraulic symmetry-breaking transition central to the decision between life and death in the nematode germline.

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Marke
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Sigma-Aldrich
Poly-L-Lysin -Lösung, 0.1 % (w/v) in H2O
Sigma-Aldrich
Tetramisol -hydrochlorid, phosphatase inhibitor