Litcius/Paper detail

Local and Global Motions Underlying Antibiotic Binding in Bacterial Ribosome

Özge Kürkçüoğlu, M. Unal Gunes, Türkan Haliloǧlu

2020Journal of Chemical Information and Modeling11 citationsDOI

Abstract

The bacterial ribosome is one of the most important targets in the treatment of infectious diseases. As antibiotic resistance in bacteria poses a growing threat, a significant amount of effort is concentrated on exploring new drug-binding sites where testable predictions are of significance. Here, we study the dynamics of a ribosomal complex and 67 small and large subunits of the ribosomal crystal structures (64 antibiotic-bound, 3 antibiotic-free) from Deinococcus radiodurans, Escherichia coli, Haloarcula marismortui, and Thermus thermophilus by the Gaussian network model. Interestingly, a network of nucleotides coupled in high-frequency fluctuations reveals known antibiotic-binding sites. These sites are seen to locate at the interface of dynamic domains that have an intrinsic dynamic capacity to interfere with functional globular motions. The nucleotides and the residues fluctuating in the fast and slow modes of motion thus have promise for plausible antibiotic-binding and allosteric sites that can alter antibiotic binding and resistance. Overall, the present analysis brings a new dynamic perspective to the long-discussed link between small-molecule binding and large conformational changes of the supramolecule.

Topics & Concepts

Deinococcus radioduransRibosomeAllosteric regulationThermus thermophilusBinding siteBiologyAntibioticsBiophysicsEscherichia coliBacteriaChemistryComputational biologyBiochemistryGeneticsRNAEnzymeGeneRNA and protein synthesis mechanismsToxin Mechanisms and ImmunotoxinsVeterinary medicine and infectious diseases