z-logo
Premium
The pollen tube: a soft shell with a hard core
Author(s) -
Vogler Hannes,
Draeger Christian,
Weber Alain,
Felekis Dimitris,
Eichenberger Christof,
RoutierKierzkowska AnneLise,
BoissonDernier Aurélien,
Ringli Christoph,
Nelson Bradley J.,
Smith Richard S.,
Grossniklaus Ueli
Publication year - 2013
Publication title -
the plant journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 3.058
H-Index - 269
eISSN - 1365-313X
pISSN - 0960-7412
DOI - 10.1111/tpj.12061
Subject(s) - turgor pressure , pollen tube , stiffness , finite element method , cell wall , elasticity (physics) , tube (container) , mechanics , rheology , shell (structure) , materials science , biophysics , pollen , composite material , structural engineering , botany , physics , biology , engineering , pollination
Summary Plant cell expansion is controlled by a fine‐tuned balance between intracellular turgor pressure, cell wall loosening and cell wall biosynthesis. To understand these processes, it is important to gain in‐depth knowledge of cell wall mechanics. Pollen tubes are tip‐growing cells that provide an ideal system to study mechanical properties at the single cell level. With the available approaches it was not easy to measure important mechanical parameters of pollen tubes, such as the elasticity of the cell wall. We used a cellular force microscope ( CFM ) to measure the apparent stiffness of lily pollen tubes. In combination with a mechanical model based on the finite element method ( FEM ), this allowed us to calculate turgor pressure and cell wall elasticity, which we found to be around 0.3  MP a and 20–90  MP a, respectively. Furthermore, and in contrast to previous reports, we showed that the difference in stiffness between the pollen tube tip and the shank can be explained solely by the geometry of the pollen tube. CFM , in combination with an FEM ‐based model, provides a powerful method to evaluate important mechanical parameters of single, growing cells. Our findings indicate that the cell wall of growing pollen tubes has mechanical properties similar to rubber. This suggests that a fully turgid pollen tube is a relatively stiff, yet flexible cell that can react very quickly to obstacles or attractants by adjusting the direction of growth on its way through the female transmitting tissue.

This content is not available in your region!

Continue researching here.

Having issues? You can contact us here