Cryo-EM reveals an asymmetry in a novel single-ring viral chaperonin

[Display omitted] •The OBP bacteriophage chaperonin has been purified as a single ring.•The OBP chaperonin has an asymmetric subunit arrangement with different nucleotide-binding capacities of different subunits.•Binding of nucleotides leads to an increase of the conformational heterogeneity of the OBP chaperonin subunits. Chaperonins are ubiquitously present protein complexes, which assist the proper folding of newly synthesized proteins and prevent aggregation of denatured proteins in an ATP-dependent manner. They are classified into group I (bacterial, mitochondrial, chloroplast chaperonins) and group II (archaeal and eukaryotic cytosolic variants). However, both of these groups do not include recently discovered viral chaperonins. Here, we solved the symmetry-free cryo-EM structures of a single-ring chaperonin encoded by the gene 246 of bacteriophage OBP Pseudomonas fluorescens, in the nucleotide-free, ATPγS-, and ADP-bound states, with resolutions of 4.3 Å, 5.0 Å, and 6 Å, respectively. The structure of OBP chaperonin reveals a unique subunit arrangement, with three pairs of subunits and one unpaired subunit. Each pair combines subunits in two possible conformations, differing in nucleotide-binding affinity. The binding of nucleotides results in the increase of subunits’ conformational variability. Due to its unique structural and functional features, OBP chaperonin can represent a new group.