Descripción del proyecto
Dinámica de los lípidos de la membrana bacteriana
La dinámica de los lípidos en las células eucariotas está vinculada a la organización a microescala y nanoescala de la membrana plasmática, lo que demuestra que existe una interacción entre el citoesqueleto de actina, las proteínas de la membrana y los componentes de la misma. Recientes pruebas experimentales han demostrado que las membranas bacterianas son muy heterogéneas y dinámicas. Financiado por la Acciones Marie Skłodowska-Curie, el equipo del proyecto FCS-BACSUB mejorará los conocimientos sobre la biología molecular y celular de las bacterias mediante el estudio de la dinámica de los lípidos en la membrana de «Bacillus subtilis». Los investigadores emplearán la espectroscopia de correlación de fluorescencia, cuya aplicación aportará información sobre la organización de las membranas bacterianas con resolución nanométrica.
Objetivo
Bacteria are fascinating organism, relatively and yet not fully understood. Fundamental research on bacteria led across the years to major technological breakthroughs like the discovery of genetic editing with CRISPR-Cas9. Besides, resistance of bacteria to antibiotics is becoming a growing public health concern, raising the need for a better understanding of the molecular mechanisms involved. We propose here to further our understanding of the molecular biology of bacteria by studying the dynamic of lipids in bacterial (B. Subtilis) membranes. In eukaryotic cells, it was found that lipid dynamics can reveal the micro- and nanoscale organisation of the plasma membrane, revealing a dynamic interplay between membrane components such as lipids, membrane proteins, and the actin cytoskeleton. Bacterial membranes were thought until recently to be much simpler, but accumulating evidence over the last ten years suggested that they too were highly heterogeneous and dynamic. However, very few studies so far focused on the question of lipid dynamics, in part because of the experimental complexity of such measurements. To address this, we will transfer new technologies based on fluorescence correlation spectroscopy (FCS), that were developed mainly for eukaryotic research, to the field of microbiology. With this unique methodology, we will answer a series of fundamental open questions: how do bacterial membranes organise at the nanoscale? Do they exhibit transient lipid-mediated interactions (called lipid rafts) as is thought to be the case in eukaryotes? Does MreB, bacterial equivalent of actin, also compartmentalises lipid diffusion? Answering these questions will help us build a holistic picture of the mechanisms associated with essential bacterial processes such as biofilm formation or antibiotic resistance, which will have far-reaching implications in both biology and medicine.
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MSCA-IF - Marie Skłodowska-Curie Individual Fellowships (IF)Coordinador
75007 Paris
Francia