Summary information and primary citation
- PDB-id
-
6ppk;
DSSR-derived features in text and
JSON formats
- Class
- ribosome
- Method
- cryo-EM (4.4 Å)
- Summary
- Rbga+45srbga complex
- Reference
-
Seffouh A, Jain N, Jahagirdar D, Basu K, Razi A, Ni X,
Guarne A, Britton RA, Ortega J (2019): "Structural
consequences of the interaction of RbgA with a 50S
ribosomal subunit assembly intermediate." Nucleic
Acids Res., 47, 10414-10425. doi:
10.1093/nar/gkz770.
- Abstract
- Bacteria harbor a number GTPases that function in the
assembly of the ribosome and are essential for growth. RbgA
is one of these GTPases and is required for the assembly of
the 50S subunit in most bacteria. Homologs of this protein
are also implicated in the assembly of the large subunit of
the mitochondrial and eukaryotic ribosome. We present here
the cryo-electron microscopy structure of RbgA bound to a
Bacillus subtilis 50S subunit assembly intermediate
(45SRbgA particle) that accumulates in cells upon RbgA
depletion. Binding of RbgA at the P site of the immature
particle stabilizes functionally important rRNA helices in
the A and P-sites, prior to the completion of the
maturation process of the subunit. The structure also
reveals the location of the highly conserved N-terminal end
of RbgA containing the catalytic residue Histidine 9. The
derived model supports a mechanism of GTP hydrolysis, and
it shows that upon interaction of RbgA with the 45SRbgA
particle, Histidine 9 positions itself near the nucleotide
potentially acting as the catalytic residue with minimal
rearrangements. This structure represents the first
visualization of the conformational changes induced by an
assembly factor in a bacterial subunit intermediate.
