Durotropic Growth of Pollen Tubes(1)([OPEN])
Reimann R, Kah DTE, Mark C, Dettmer J, Reimann T, Gerum R, Geitmann A, Fabry B, Dietrich P, Kost B (2020)
Publication Type: Journal article
Publication year: 2020
Journal
Book Volume: 183
Pages Range: 558-569
Journal Issue: 2
DOI: 10.1104/pp.19.01505
Abstract
To reach the female gametophyte, growing pollen tubes must penetrate different tissues within the pistil, the female reproductive organ of a flower. Past research has identified various chemotropic cues that guide pollen tubes through the transmitting tract of the pistil, which represents the longest segment of its growth path. In addition, physical mechanisms also play a role in pollen tube guidance; however, these processes remain poorly understood. Here we show that pollen tubes from plants with solid transmitting tracts actively respond to the stiffness of the environment. We found that pollen tubes fromNicotiana tabacumand other plant species with a solid or semisolid transmitting tract increase their growth rate in response to an increasing matrix stiffness. By contrast, pollen tubes fromLilium longiflorumand other plant species with a hollow transmitting tract decrease their growth rate with increasing matrix stiffness, even though the forces needed to maintain a constant growth rate remain far below the maximum penetration force these pollen tubes are able to generate. Moreover, when confronted with a transition from a softer to a stiffer matrix, pollen tubes fromN. tabacumdisplay a greater ability to penetrate into a stiffer matrix compared with pollen tubes fromL. longiflorum,even though the maximum force generated by pollen tubes fromN. tabacum(11 mu N) is smaller than the maximum force generated by pollen tubes fromL. longiflorum(36 mu N). These findings demonstrate a mechano-sensitive growth behavior, termed here durotropic growth, that is only expressed in pollen tubes from plants with a solid or semisolid transmitting tract and thus may contribute to an effective pollen tube guidance within the pistil.
Authors with CRIS profile
Ronny Reimann
Lehrstuhl für Zellbiologie
Delf-Thorge Eric Kah
Lehrstuhl für Biophysik
Christoph Mark
Lehrstuhl für Biophysik
Jan Dettmer
Lehrstuhl für Zellbiologie
Theresa Reimann
Lehrstuhl für Zellbiologie
Richard Gerum
Lehrstuhl für Biophysik
Ben Fabry
Lehrstuhl für Biophysik
Petra Dietrich
Professur für Zellbiologie der Pflanzen
Benedikt Kost
Lehrstuhl für Zellbiologie
Involved external institutions
Canada (CA)How to cite
APA:
Reimann, R., Kah, D.-T.E., Mark, C., Dettmer, J., Reimann, T., Gerum, R.,... Kost, B. (2020). Durotropic Growth of Pollen Tubes(1)([OPEN]). Plant Physiology, 183(2), 558-569. https://dx.doi.org/10.1104/pp.19.01505
MLA:
Reimann, Ronny, et al. "Durotropic Growth of Pollen Tubes(1)([OPEN])." Plant Physiology 183.2 (2020): 558-569.
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