ECB-ART-52382
Dev Growth Differ
1985 Jan 01;273:371-383. doi: 10.1111/j.1440-169X.1985.00371.x.
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Regional Difference in Mechanical Properties of the Cell Surface in Dividing Echinoderm Eggs*: (mechanical properties/cell surface/sea urchin eggs/starfish eggs/cleavage).
Abstract
Stiffness of the cell was surface was determined in fertilized sea urchin and starfish eggs by measuring the mechanical resistivity of the cell surface against negative pressure applied to a restricted part with a micropipette in contact with the cell surface at its tip (elastimetry). In both sea urchin and starfish eggs, the stiffness of the cell surface changed almost in parallel between the presumptive furrow and polar surfaces before the onset of the first cleavage, and the stiffness of the furrow surface became larger than that of the polar surface when cleavage started, although temporal changes in the stiffness were different between sea urchin and starfish eggs. The stiffness of the cell surface changed almost in parallel between the surfaces at the equator and at the animal pole in starfish eggs before the onset of polar body formation. The stiffness of the cell surface around the forming polar body increased during the formation of the polar body and remained at a high level after the polar body formation. It seems that the stiffness difference responsible for the formation of the contractile ring develops simultaneously with rather than prior to the formation of the cleavage furrow.
PubMed ID: 37282109
Article link: Dev Growth Differ