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Computer simulations suggest direct and stable tip to tip interaction between the outer membrane channel TolC and the isolated docking domain of the multidrug RND efflux transporter AcrB

  • One way by which bacteria achieve antibiotics resistance is preventing drug access to its target molecule for example through an overproduction of multi-drug efflux pumps of the resistance nodulation division (RND) protein super family of which AcrAB-TolC in Escherichia coli is a prominent example. Although representing one of the best studied efflux systems, the question of how AcrB – TolC interact is still unclear as the available experimental data suggest that either both proteins interact in a tip to tip manner or do not interact at all but are instead connected by a hexamer of AcrA molecules. Addressing the question of TolC – AcrB interaction, we performed a series of 100 ns – 1 μs molecular dynamics simulations of membrane-embedded TolC in presence of the isolated AcrB docking domain (AcrBDD). In 5 / 6 simulations we observe direct TolC – AcrBDD interaction that is only stable on the simulated time scale when both proteins engage in a tip to tip manner. At the same time we find TolC opening and closing freely on extracellular side while remaining closed at the inner periplasmic bottleneck region, suggesting that either the simulated time is too short or additional components are required to unlock TolC.

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Metadaten
Document Type:Article
Language:English
Parent Title (English):Biochimica et Biophysica Acta (BBA) - Biomembranes
Volume:1858
Issue:7
First Page:1419
Last Page:1426
ISSN:0005-2736
DOI:https://doi.org/10.1016/j.bbamem.2016.03.029
Pubmed Id:http://www.ncbi.nlm.nih.gov/pubmed?term=27045078
Publisher:Elsevier
Date of first publication:2016/04/02
Tag:Access regulation; Antibiotics resistance; Membrane protein; Molecular dynamics; Multi-drug efflux; Outer membrane channel
Departments, institutes and facilities:Fachbereich Elektrotechnik, Maschinenbau, Technikjournalismus
Institut für Technik, Ressourcenschonung und Energieeffizienz (TREE)
Dewey Decimal Classification (DDC):5 Naturwissenschaften und Mathematik / 57 Biowissenschaften; Biologie / 572 Biochemie
Entry in this database:2016/04/14