TY - JOUR T1 - Linear stability analysis of morphodynamics during tissue regeneration in plants JF - bioRxiv DO - 10.1101/350884 SP - 350884 AU - Anne-Mieke Reijne AU - Gunnar Pruessner AU - Giovanni Sena Y1 - 2018/01/01 UR - http://biorxiv.org/content/early/2018/06/20/350884.abstract N2 - One of the key characteristics of multicellular organisms is the ability to establish and maintain shapes, or morphologies, under a variety of physical and chemical perturbations. A quantitative description of the underlying morphological dynamics is a critical step to fully understand the self-organising properties of multicellular systems. Although many powerful mathematical tools have been developed to analyse stochastic dynamics, rarely these are applied to experimental developmental biology.Here, we take root tip regeneration in the plant model system Arabidopsis thaliana as an example of robust morphogenesis in living tissue, and present a novel approach to quantify and model the relaxation of the system to its unperturbed morphology. By generating and analysing time-lapse series of regenerating root tips captured with confocal microscopy, we are able to extract and model the dynamics of key morphological traits at cellular resolution. We present a linear stability analysis of its Markovian dynamics, with the stationary state representing the intact root in the space of morphological traits. We find that the resulting eigenvalues can be classified into two groups, suggesting the co-existence of two distinct temporal scales during the process of regeneration.We discuss the possible biological implications of our specific results, and suggest future experiments to further probe the self-organising properties of living tissue. ER -