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EU funding (€1,999,174): Connecting prey attacks and cell cycle switches in predatory bacteria Hor20 Feb 2025 EU Research and Innovation programme "Horizon"
Overview
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Connecting prey attacks and cell cycle switches in predatory bacteria
Bacterial predators offer a unique avenue to identify novel molecular weapons that could be harnessed against antibiotic-resistant pathogens. Obligate predatory bacteria thrive by consuming other bacteria, either vampirizing prey from inside (endobiotic predation) or from the surface (epibiotic predation). However, critical aspects of predatory attacks and predator proliferation remain enigmatic. The VAMPIRE project aims to fill this gap by elucidating the molecular devices used for prey attack and digestion, and the pathways controlling predator proliferation during these key predation stages. Building on state-of-the-art live-cell imaging tools and insights on endobiotic predation from the ERC StG PREDATOR, VAMPIRE takes a significant leap further by addressing long-standing gaps in mechanistic understanding of bacterial predation. Investigation in VAMPIRE is consolidated by studying both endobiotic and epibiotic predation modes, leveraging two closely related predator species as model systems: Bdellovibrio bacteriovorus (endobiotic) and B. exovorus (epibiotic). This proposal specifically aims to (i) examine the roles of conserved molecular nanomachines (pili and secretion systems) in predatory attacks, (ii) uncover the intriguing macromolecular feeding complex clamping predators to prey during vampirization, (iii) unravel the significance of secondary messengers in coordinating the start and end of predator growth with prey attack and consumption. Strong preliminary data indicate spatial confinement of these mechanisms to the prey-invasive pole in the predator cell, emphasizing subcellular organization as a key determinant for coupling attacks and cell cycle control in bacterial predators. Combining single-cell live imaging, genetics, proteomics, and structural approaches, VAMPIRE will comprehensively explore predatory lifecycles, extending beyond the textbook “classics” of bacterial proliferation while offering insights into novel antibacterial mechanisms.
Funded Companies:
| Company name | Funding amount |
| Universite Catholique de Louvain | €1,999,174 |
Source: https://cordis.europa.eu/project/id/101171143
The filing refers to a past date, and does not necessarily reflect the current state. The current state is available on the following page: Université Catholique de Louvain, Ottignies, Belgium.
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