4BLO: P4 Protein From Bacteriophage Phi6 In Complex With Adp

Citation:
Abstract
Many complex viruses package their genomes into empty protein shells and bacteriophages of the Cystoviridae family provide some of the simplest models for this. The cystoviral hexameric NTPase, P4, uses chemical energy to translocate single-stranded RNA genomic precursors into the procapsid. We previously dissected the mechanism of RNA translocation for one such phage, 12, and have now investigated three further highly divergent, cystoviral P4 NTPases (from 6, 8 and 13). High-resolution crystal structures of the set of P4s allow a structure-based phylogenetic analysis, which reveals that these proteins form a distinct subfamily of the RecA-type ATPases. Although the proteins share a common catalytic core, they have different specificities and control mechanisms, which we map onto divergent N- and C-terminal domains. Thus, the RNA loading and tight coupling of NTPase activity with RNA translocation in 8 P4 is due to a remarkable C-terminal structure, which wraps right around the outside of the molecule to insert into the central hole where RNA binds to coupled L1 and L2 loops, whereas in 12 P4, a C-terminal residue, serine 282, forms a specific hydrogen bond to the N7 of purines ring to confer purine specificity for the 12 enzyme.
PDB ID: 4BLODownload
MMDB ID: 112748
PDB Deposition Date: 2013/5/4
Updated in MMDB: 2013/11
Experimental Method:
x-ray diffraction
Resolution: 2.8  Å
Source Organism:
Similar Structures:
Biological Unit for 4BLO: hexameric; determined by author and by software (PISA)
Molecular Components in 4BLO
Label Count Molecule
Proteins (6 molecules)
6
Packaging Enzyme P4(Gene symbol: phi-6L_3)
Molecule annotation
Chemicals (12 molecules)
1
6
2
6
* Click molecule labels to explore molecular sequence information.

Citing MMDB
.