Original video: https://youtu.be/GmevxajcKe4
Early Arabidopsis thaliana seedling growth includes the highly synchronous development of hairs from every epidermal cell of the collet (the root–hypocotyl transition zone). The dynamics of collet hair growth, and accompanying nuclear movement and endoreduplication, were followed using a combination of different fluorescent probes for time-lapse imaging and flow cytometry. Using laser-scanning confocal microscopy on the double-transgenic Arabidopsis hybrid line NLS-GFP-GUS × YPM, there appeared to be a correlation between nuclear position and the cell tip during growth of the collet hair cells, as occurs in asynchronously developing root hairs. However, disruption of nuclear movement in the growing collet hairs using low concentrations of cytoskeletal inhibitors demonstrated that nuclear positioning close to the tip of the cell is not essential for tip-directed growth of the hair. Nuclear DNA content increases from 4C to 16C during development of the collet hairs. Following cessation of growth, nuclei moved to the base of the hairs and then their movement became asynchronous and limited. Co-visualization of RFP-highlighted prevacuolar vesicles and GFP-labelled nuclei showed that, whereas small vesicles allowed unimpeded nuclear movement within the hair, transient stops and directional reversals coincided with the presence of larger vesicles in close proximity to the nucleus. Arabidopsis collet hairs provide a robust, easily accessible, naturally synchronized population of single tip-growing cells that can be used as a model cell type for studying nuclear movement and endoreduplication.
Keywords: Confocal microscopy, Cytoskeleton, DNA content, Flow cytometry, Fluorescent protein, Nucleus migration, Tip growth
Citation: Elwira Sliwinska, Jaideep Mathur, J. Derek Bewley, Synchronously developing collet hairs in Arabidopsis thaliana provide an easily accessible system for studying nuclear movement and endoreduplication, Journal of Experimental Botany, Volume 63, Issue 11, 28 June 2012, Pages 4165–4178, https://doi.org/10.1093/jxb/ers099
Published on: 26 March 2012
Attribution 4.0 International — CC BY 4.0 - Creative Commons
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