Browsing by Issue Date, starting with "2019-12"
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- Quorum sensing regulation in Erwinia carotovora affects development of Drosophila melanogaster infected larvaePublication . Vieira, Filipe J. D.; P, Nadal-Jimenez; Teixeira, Luis; Xavier, Karina BivarMulti-host bacteria must rapidly adapt to drastic environmental changes, relying on integration of multiple stimuli for an optimal genetic response. Erwinia spp. are phytopathogens that cause soft-rot disease in plants. Erwinia carotovora Ecc15 is used as a model for bacterial oral-route infection in Drosophila melanogaster as it harbors a gene, the Erwinia virulence factor (Evf), which has been previously shown to be a major determinant for infection of D. melanogaster gut. However, the factors involved in regulation of evf expression are poorly understood. We investigated whether evf could be controlled by quorum sensing since, in the Erwinia genus, quorum sensing regulates pectolytic enzymes, the major virulence factors needed to infect plants. Here, we show that transcription of evf is positively regulated by quorum sensing in Ecc15 via the acyl-homoserine lactone (AHL) signal synthase ExpI, and the AHL receptors ExpR1 and ExpR2. Moreover, we demonstrate that the GacS/A two-component system is partially required for evf expression. We also show that the load of Ecc15 in the gut depends upon the quorum sensing-mediated regulation of evf. Furthermore, we demonstrate that larvae infected with Ecc15 suffer a developmental delay as a direct consequence of the regulation of evf via quorum sensing. Overall, our results show that Ecc15 relies on quorum sensing to control production of both pectolytic enzymes and Evf. This regulation influences the interaction of Ecc15 with its two known hosts, indicating that quorum sensing and GacS/A signaling systems may impact bacterial dissemination via insect vectors that feed on rotting plants.
- Impact of changing cell-cell communication network in models of epithelial pattern formationPublication . Varela, Pedro L.; Monteiro, Pedro T.; Chaouiya, ClaudineWhen modelling multi-cellular systems, one has to account for cell-cell signalling in addition to the molecular networks driving cell behaviours. Here, we aim at exploring how the topology of the cell-cell communication network impacts the behaviour of the whole multicellular system. More precisely, we focus on epithelial pattern formation, on which our question can be rephrased in terms of cell sizes and shapes. Relying on a logical modelling framework, and using a simple lateral inhibition model over a population of epithelial cells, we assess the model behaviours considering a variety of communication networks. This study suggests that reasonable deviations from a fixed grid (with regular hexagonal shaped cells) do not change much the resulting patterns. We further explore the impact of cell shapes and show that characteristics such as network regularity and number of shared neighbours of contacting cells are relevant to qualify such deviations.