The first structure of polarity suppression protein, Psu from enterobacteria phage P4, reveals a novel fold and a knotted dimer

Psu is a capsid decoration protein of bacteriophage P4 and acts as an antiterminator of Rho-dependent transcription termination in bacteria. So far, no structures have been reported for the Psu protein or its homologues. Here, we report the first structure of Psu solved by the Hg2+ single wavelength anomalous dispersion method, which reveals that Psu exists as a knotted homodimer and is first of its kind in nature. Each monomer of Psu attains a novel fold around a tight coiled-coil motif. CD spectroscopy and the structure of an engineered disulfide-bridged Psu derivative reveal that the protein folds reversibly and reassembles by itself into the knotted dimeric conformation without the requirement of any chaperone. This structure would help to explain the functional properties of the protein and can be used as a template to design a minimal peptide fragment that can be used as a drug against Rho-dependent transcription termination in bacteria

The moonlighting function of bacteriophage P4 capsid protein, Psu, as a transcription antiterminator

Psu, a 20-kD bacteriophage P4 capsid decorating protein moonlights as a transcription antiterminator of the Rho-dependent termination. Psu forms specific complex with E.coli Rho protein and affects the latter's ATP-dependent translocase activity along the nascent RNA. It forms a unique knotted dimer to take a V-shaped structure. The C-terminal helix of Psu makes specific contacts with a disordered region of Rho, encompassing the residues 139–153. An energy minimized structural model of the Rho–Psu complex reveals that the V-shaped Psu dimer forms a lid over the central channel of the Rho hexamer. This configuration of Psu causes a mechanical impediment to the translocase activity of Rho. The knowledge of structural and mechanistic basis of inhibition of Rho action by Psu may help to design peptide inhibitors for the conserved Rho-dependent transcription termination process of bacteria

Crystallization and preliminary X-ray analysis of Psu, an inhibitor of the bacterial transcription terminator Rho

Psu, a unique 21 kDa protein from bacteriophage P4, is a non-essential capsid-decoration protein that inhibits Rho-dependent termination specifically and efficiently both in vivo and in vitro. Psu has been crystallized using PEG as precipitant and the crystals diffracted to 2.3 Å resolution