2010
DOI: 10.1105/tpc.110.075754
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Finite Element Model of Polar Growth in Pollen Tubes  

Abstract: Cellular protuberance formation in walled cells requires the local deformation of the wall and its polar expansion. In many cells, protuberance elongation proceeds by tip growth, a growth mechanism shared by pollen tubes, root hairs, and fungal hyphae. We established a biomechanical model of tip growth in walled cells using the finite element technique. We aimed to identify the requirements for spatial distribution of mechanical properties in the cell wall that would allow the generation of cellular shapes tha… Show more

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Cited by 190 publications
(214 citation statements)
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“…Zerzour et al, 2009) and biochemical (see e.g. Fayant et al, 2010) measurements that probe the local properties of the wall with quantitative measurement on the local rate of exocytosis (see e.g. Zonia and Munnik, 2008) may serve to validate some of the ideas presented here.…”
Section: Discussion and Outlookmentioning
confidence: 75%
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“…Zerzour et al, 2009) and biochemical (see e.g. Fayant et al, 2010) measurements that probe the local properties of the wall with quantitative measurement on the local rate of exocytosis (see e.g. Zonia and Munnik, 2008) may serve to validate some of the ideas presented here.…”
Section: Discussion and Outlookmentioning
confidence: 75%
“…To give a realistic account of the full growth dynamics clearly requires considering the mechanical properties of the cell wall, which currently is an active area of research (see e.g. Goriely and Tabor (2003a); Dumais et al (2006); Campàs and Mahadevan (2009);Fayant et al (2010)). However, this is beyond the scope of the current work, which focusses on the generic aspects of wall ageing on the overall expansion rate.…”
Section: Growth Modementioning
confidence: 99%
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“…Despite the importance of this crucial step that leads to seed production, the molecular mechanisms implicated in the spatial and temporal controls of pollen tube growth are not fully known (Johnson and Lord, 2006;Palanivelu and Tsukamoto, 2012). However, it has been proposed that the modulation of the stiffness of the pollen tube was important during pollen tube growth (Parre and Geitmann, 2005a;Fayant et al, 2010;Vogler et al, 2013). Pollen tube elongation is highly polarized, with the growth area being restricted to the apex of the tube.…”
mentioning
confidence: 99%