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Abstract
Ligand binding is one of the most fundamental properties of proteins. Ligand functions fall into three basic types: substrates, regulatory molecules, and cofactors essential to protein stability, reactivity, or enzyme-substrate complex formation. The regulation of potassium ion movement in bacteria is predominantly under the control of regulatory ligands that gate the relevant channels and transporters, which possess subunits or domains that contain Rossmann folds (RFs). Here we demonstrate that adenosine monophosphate (AMP) is bound to both RFs of the dimeric bacterial Kef potassium efflux system (Kef), where it plays a structural role. We conclude that AMP binds with high affinity, ensuring that the site is fully occupied at all times in the cell. Loss of the ability to bind AMP, we demonstrate, causes protein, and likely dimer, instability and consequent loss of function. Kef system function is regulated via the reversible binding of comparatively low-affinity glutathione-based ligands at the interface between the dimer subunits. We propose this interfacial binding site is itself stabilized, at least in part, by AMP binding.
Original language | English |
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Pages (from-to) | 4219-4234 |
Journal | Biochemistry |
Volume | 56 |
Issue number | 32 |
Early online date | 28 Jun 2017 |
DOIs | |
Publication status | Published - 15 Aug 2017 |
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Dive into the research topics of 'Adenosine monophosphate binding stabilizes the KTN domain of the Shewanella denitrificans Kef potassium efflux system'. Together they form a unique fingerprint.Projects
- 2 Finished
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Role of lipids ion channel: The role of lipids on gating the mechanosensitive ion channel of large conductance MscL - a model system for mechanosensation and a promising antibacterial terget
Pliotas, C. (PI)
1/03/16 → 28/02/19
Project: Standard
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ConformationalStates of MembranceProtein: Conformational states of membrane proteins: Technology development for bioscience
Naismith, J. (PI) & Liu, H. (CoI)
1/07/10 → 9/01/16
Project: Standard