Scientists shed new light on pollen tube growth in plants
Date:
September 1, 2020
Source:
eLife
Summary:
New insight on how an enzyme ensures the correct growth of pollen
tubes in flowering plants has just been published.
FULL STORY ==========================================================================
New insight on how an enzyme ensures the correct growth of pollen tubes
in flowering plants has been published today in the open-access journal
eLife.
==========================================================================
The study reveals an unexpected role of KATANIN in moderating the
mechanical properties of the papilla cell wall in Arabidopsis thaliana
(A. thaliana), thereby preventing disordered pollen tube growth and
allowing the tube to find its correct path to the underlying female
plant tissues. These findings suggest that KATANIN has likely played a
major role in the success of flowering plants on earth more widely.
Seeds are produced in flowering plants when male and female germ cells
called gametes fuse together. Male gametes are contained in the pollen
grain while female gametes are found in the ovules, which are embedded
in a female reproductive organ called the pistil. For successful seed production to happen, pollen grains need to meet with the surface
of the pistil, which is composed of a layer of elongated cells called
papillae. When a pollen grain lands on a papilla, it rehydrates and then produces a tube that will carry the male gametes toward the ovules.
Pollen tubes grow first within the papilla cell wall, exerting a physical pressure on the cell. After crossing the papilla layer, they then grow in
the intercellular space of underlying tissues. The pistil then produces compounds that guide the pollen tube to the ovules where it reaches the
female gametes.
But how the tube orients itself when it emerges from the pollen at the
papilla surface remains unknown.
"It is striking that, whatever the position of the flower and hence the
pistil on the stem, the pollen tube grows to the base of the papilla
in the direction of the ovules. We wanted to explore the mechanisms
that allow for this proper orientation of pollen tubes on the papilla
cells," says lead author Lucie Riglet, who was a PhD student in senior
author Thierry Gaude's lab at the Laboratory of Plant Reproduction and Development, ENS Lyon, France, at the time the study was carried out,
and is now a postdoctoral researcher at the Sainsbury Laboratory,
University of Cambridge, UK.
Mechanical forces are known to play a major role in plant cell shape
by controlling the orientation of cortical microtubules, which in turn
mediate the deposition of cellulose microfibrils. For their study,
Riglet and her team combined imaging, genetic and chemical approaches
to show that the enzyme KATANIN, which cuts microtubules, also acts on cellulose microfibril orientation and confers mechanical properties to
the papilla cell wall that allow for correct pollen tube orientation.
"By forcing the pollen tubes to take the right direction from their
early places in the papilla, KATANIN has likely played a major role in
the success of flowering plants on earth by promoting fertilisation,"
explains senior author Thierry Gaude, Group Leader at the Laboratory
of Plant Reproduction and Development, ENS Lyon. "As KATANIN is found
in most organisms, including humans, it is possible that the enzyme
plays a role in regulating mechanical properties in other processes --
but this is a fascinating question that remains to be explored."
========================================================================== Story Source: Materials provided by eLife. Note: Content may be edited
for style and length.
========================================================================== Journal Reference:
1. Lucie Riglet, Fre'de'rique Rozier, Chie Kodera, Simone Bovio, Julien
Sechet, Isabelle Fobis-Loisy, Thierry Gaude. KATANIN-dependent
mechanical properties of the stigmatic cell wall mediate the pollen
tube path in Arabidopsis. eLife, 2020; 9 DOI: 10.7554/eLife.57282 ==========================================================================
Link to news story:
https://www.sciencedaily.com/releases/2020/09/200901125909.htm
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