Houssam Hajjoul scite author profile

Chromosome dynamics are recognized to be intimately linked to genomic transactions, yet the physical principles governing spatial fluctuations of chromatin are still a matter of debate. Using high-throughput single-particle tracking, we recorded the movements of nine fluorescently labeled chromosome loci located on chromosomes III, IV, XII, and XIV of Saccharomyces cerevisiae over an extended temporal range spanning more than four orders of magnitude (10 -2 -10 3 sec). Spatial fluctuations appear to be characterized by an anomalous diffusive behavior, which is homogeneous in the time domain, for all sites analyzed. We show that this response is consistent with the Rouse polymer model, and we confirm the relevance of the model with Brownian dynamics simulations and the analysis of the statistical properties of the trajectories. Moreover, the analysis of the amplitude of fluctuations by the Rouse model shows that yeast chromatin is highly flexible, its persistence length being qualitatively estimated to <30 nm. Finally, we show that the Rouse model is also relevant to analyze chromosome motion in mutant cells depleted of proteins that bind to or assemble chromatin, and suggest that it provides a consistent framework to study chromatin dynamics. We discuss the implications of our findings for yeast genome architecture and for target search mechanisms in the nucleus.

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Lab-on-Chip for fast 3D particle tracking in living cells

Hajjoul

Kočanová

Lassadi

et al. 2009

Lab Chip

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We present a novel Lab-on-Chip technology for 3D particle tracking in living cells based on V-shaped micro-mirrors, which are used to observe fluorescent specimens from multiple vantage points, providing simultaneous stereo-images that can be recombined for 3D reconstruction. Our technology can be readily used with standard fluorescence microscopes, and we apply it to study chromatin dynamics using yeast strains with one or two GFP-tagged gene loci. Using an Andor EMCCD camera, loci are followed in 3D with inter-frame intervals of up to 10 ms and with an error of 27 nm per axis, yielding quantitative information on their dynamics with exquisite temporal spatial resolution.

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Houssam Hajjoul

High-throughput chromatin motion tracking in living yeast reveals the flexibility of the fiber throughout the genome

Lab-on-Chip for fast 3D particle tracking in living cells

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