Bacterially produced in vitro membrane model systems

Publications

Original research papers

M. Bril’kov, V. Stenbakk, M. Jakubec, T. Vasskog, T. Kristoffersen, J.P. Cavanagh, J.U. Ericson, J. Isaksson, G.E. Flaten (2023) 
Bacterial extracellular vesicles: towards realistic models for bacterial membranes in molecular interaction studies by Surface Plasmon Resonance, Frontiers in Molecular Biosciences, https://doi.org/10.3389/fmolb.2023.1277963

Posters and oral presentations

M. Bril’kov, V Steinbakk, J.P. Cavanagh, J.U. Ericson, J. Isaksson, G.E. Flaten
Bacterial extracellular vesicles (bEVs) as a ready to use model to study membrane interactions, The Nordic AMR Centre Conference 13th to 16th of March 2024, Tromsø, Norway (oral)

M. Bril’kov, J.P. Cavanagh, J. Isaksson,  J.U. Ericson, G.E. Flaten
Bacterially produced in vitro mambrane model systems from resistant- and non-resistant clinical isolates. CANS day, 23rd of February 2023, Tromsø, Norway (poster)

M. Bril’kov, J.P. Cavanagh, J.U. Ericson, J. Isaksson, G.E. Flaten
Bacterially produced in vitro mambrane model systems from resistant- and non-resistant clinical isolates. NordicPOP annual meeting, 10th to 12th of August 2022, Helsinki, Finland (poster)

Disseminations

Bacterial membrane satellites prove important testing ground for new antibiotics, Sciencenorway.no (2024)

Bacterial membrane satellites prove important testing ground for new antibiotics, UiT.no (2024)

Master projects

Marit Melbye Sørensen: Application of bEVs as a bacterial membrane model for interaction studies with NMR, June 2024, Supervisors: Johan Isaksson, Gøril Eide Flaten and Maxim Bril'kov

Brage Hjelle Braa: Exploring the viability of using liposomes and bacterial extracellular vesicles (bEVs) in interaction studies by calorimetric methods, June 2024, Supervisors: Maxim Bril'kov, Gøril Eide Flaten and Johan Isaksson

Victoria Stenbakk: Application of outer membrane vesicles from ESKAPE pathogens as native models of bacterial membranes. June 2023, Supervisors: Maxim Bril'kov and Gøril Eide Flaten