2016
DOI: 10.1242/jcs.175745
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Evidence for actin dual role in regulating chromosome organization and dynamics in yeast

Abstract: Eukaryotic chromosomes undergo movements that are involved in the regulation of functional processes such as DNA repair. To better understand the origin of these movements, we used fluorescence microscopy, image analysis and chromosome conformation capture to quantify the actin contribution to chromosome movements and interactions in budding yeast. We show that both the cytoskeletal and nuclear actin drive local chromosome movements, independently of Csm4, a putative LINC protein. Inhibition of actin polymeriz… Show more

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Cited by 78 publications
(78 citation statements)
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“…measurements from fixed cells or single snapshots of live cells—we decided to test our model’s ability to predict chromatin dynamics. We therefore compared the mean-squared displacements (MSD) of single loci, predicted by our simulation, to time-lapse microscopy data acquired in three recent studies [6466] (Additional file 5) (Fig. 5).…”
Section: Resultsmentioning
confidence: 99%
See 1 more Smart Citation
“…measurements from fixed cells or single snapshots of live cells—we decided to test our model’s ability to predict chromatin dynamics. We therefore compared the mean-squared displacements (MSD) of single loci, predicted by our simulation, to time-lapse microscopy data acquired in three recent studies [6466] (Additional file 5) (Fig. 5).…”
Section: Resultsmentioning
confidence: 99%
“…Additional data used for model validation only are: Hi-C data from [62], Micro-C XL data from [63], and chromatin dynamics data from [6466]. For more details, see Additional file 3 and Additional file 1: Supplementary Methods…”
Section: Methodsmentioning
confidence: 99%
“…The same Arp2-3 complex is also the driver of heterochromatic DSB extrusion and perinuclear relocalisation in Drosophila (Caridi et al 2018). Finally, the actin cytoskeleton seems to contribute to chromatin mobility in yeast but its requirement for DSB mobility remains to be tested (Spichal et al 2016). Overall, the conservation of this mechanism in various species plead in favour of its functional relevance for DNA repair.…”
Section: Increasing Mobility: a Functional Requirement For Homology Smentioning
confidence: 99%
“…We cannot therefore rule out the possibility that the effects of eEF1A overexpression on spindle organisation and chromosomal segregation are also influenced by a stress response that in turn leads to spindle pole body stabilisation. A role for actin in the regulation of chromosome dynamics in yeast has recently been described in which both cytoplasmic and nuclear actin structures have been implicated (Spichal et al, 2016). An extension of these findings is that stabilisation of actin structures through eEF1A overexpression might alter the dynamic interplay between chromosomes and the nuclear envelope in addition to stabilisation of the spindle pole body.…”
Section: Discussionmentioning
confidence: 99%