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BP: Fachverband Biologische Physik
BP 22: Bacterial Biophysics II
BP 22.3: Vortrag
Mittwoch, 20. März 2024, 15:30–15:45, H 0112
How Does a Riboswitch Differentiate Between Mg2+ and its experimental mimic Mn2+ for Specific Binding? — Kushal Singh and •Govardhan Reddy Patluri — Indian Institute of Science, Bangalore, India
Metalloriboswitches regulate metal ion homeostasis in bacteria. The aptamer domain of the Mn-sensing riboswitch (Mn-AD) binds to Mn2+ with high specificity in the presence of Mg2+. However, Mn2+ can substitute Mg2+ in the binding pockets of RNA structures and is exploited as an experimental probe. To understand the specificity of Mn-AD towards Mn2+ sensing in the presence of Mg2+, we used computer simulations and RNA models with different resolutions. We find that the specificity of the binding pocket for Mn2+ binding is driven by kinetics as Mn2+ loses a water molecule from its first solvation shell and transitions to an inner-shell interaction with a phosphate oxygen in the binding pocket relatively faster compared to Mg2+. The enhanced sampling simulations show that Mn2+ further consolidates its binding to the MB pocket via conformational rearrangements, facilitating hierarchical dehydration of the six water molecules from its solvation shell and transitions to inner-shell coordination. The free energy for Mn2+ to lose six water molecules for its solvation shell is downhill compared to Mg2+. These results provide insight into how bacteria use RNA to sense specific metal ions from a pool of biologically relevant metal ions to maintain homeostasis.
Keywords: RNA, Riboswitch, Matal Ions, Simulations