Cell Reports (Dec 2015)

Structural and Dynamic Basis for Low-Affinity, High-Selectivity Binding of L-Glutamine by the Glutamine Riboswitch

  • Aiming Ren,
  • Yi Xue,
  • Alla Peselis,
  • Alexander Serganov,
  • Hashim M. Al-Hashimi,
  • Dinshaw J. Patel

DOI
https://doi.org/10.1016/j.celrep.2015.10.062
Journal volume & issue
Vol. 13, no. 9
pp. 1800 – 1813

Abstract

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Naturally occurring L-glutamine riboswitches occur in cyanobacteria and marine metagenomes, where they reside upstream of genes involved in nitrogen metabolism. By combining X-ray, NMR, and MD, we characterized an L-glutamine-dependent conformational transition in the Synechococcus elongatus glutamine riboswitch from tuning fork to L-shaped alignment of stem segments. This transition generates an open ligand-binding pocket with L-glutamine selectivity enforced by Mg2+-mediated intermolecular interactions. The transition also stabilizes the P1 helix through a long-range “linchpin” Watson-Crick G-C pair-capping interaction, while melting a short helix below P1 potentially capable of modulating downstream readout. NMR data establish that the ligand-free glutamine riboswitch in Mg2+ solution exists in a slow equilibrium between flexible tuning fork and a minor conformation, similar, but not identical, to the L-shaped bound conformation. We propose that an open ligand-binding pocket combined with a high conformational penalty for forming the ligand-bound state provide mechanisms for reducing binding affinity while retaining high selectivity.