Abstract P-31: Structure of Pseudomonas aeruginosa Luz-24-like Phage U47

Evgeny Pichkur; Valery Novoseletsky; Mikhail Shneider; Anton Sedov; Nina Sikilinda; Konstantin Miroshnikov; Olga Sokolova

doi:10.21103/IJBM.9.Suppl_1.P31

International Journal of Biomedicine (Jun 2019)

Abstract P-31: Structure of Pseudomonas aeruginosa Luz-24-like Phage U47

Evgeny Pichkur,
Valery Novoseletsky,
Mikhail Shneider,
Anton Sedov,
Nina Sikilinda,
Konstantin Miroshnikov,
Olga Sokolova

Affiliations

Evgeny Pichkur: National Research Center “Kurchatov Institute”, Moscow, Russia; Petersburg Nuclear Physics Institute-National Research Center “Kurchatov Institute”, Gatchina, Russia; FSRC “Crystallography and Photonics”, Moscow, Russia
Valery Novoseletsky: Lomonosov Moscow State University, Moscow, Russia; 5IBCh RAS, Moscow, Russia
Mikhail Shneider: IBCh RAS, Moscow, Russia
Anton Sedov: IBCh RAS, Moscow, Russia
Nina Sikilinda: IBCh RAS, Moscow, Russia
Konstantin Miroshnikov: IBCh RAS, Moscow, Russia
Olga Sokolova: Lomonosov Moscow State University, Moscow, Russia

DOI: https://doi.org/10.21103/IJBM.9.Suppl_1.P31
Journal volume & issue: Vol. 9, no. Suppl_1
pp. S30 – S31

Abstract

Read online

Background: Phage U47 belongs to the Luz24-virus genus of the Podoviridae family. Due to the effective mechanism of host metabolism suppression and an ability to penetrate bacterial biofilms Luz24-like Pseudomonas aeruginosa phages prospective for phage therapy applications. The relatively long tail of U47 makes it a promising model for structural studies of podoviruses. Yet, the structural information concerning adsorption complex of podoviruses, which is crucial for understanding of the infection process, is limited. Methods: For the purification of the U47 phage, we used ultracentrifugation in a cesium gradient and further dialysis against buffer with low osmotic pressure. U47 solution was mixed 10:1 with 0.05% Tween 20. 3ul of the sample were applied onto the hydrophilized holey carbon support film (Quantifoil 1.2/1.3). A total of 6500 movies were collected using cryo-TEM Krios (Thermo-Fisher, USA) at acceleration voltage 300kV, pixel size 1.15Å, flux approx. 100 e/A2s. Motion correction and CTF estimation was performed using Warp, particles were picked and processed in CryoSPARC and Relion 3.0. In spite of the absence of highly similar homologues molecular model of this protein was built with Modeller using HHpred for homology search. As templates surwed the structures of the major capsid proteins from bacteriophages Hk97 (pdb: 1OHG) and phi812K1-420 (pdb: 5LII). Structural model was fitted into the obtained cryo-EM density map. Results: We have obtained the icosahedral reconstruction of the U47 phage capsid with a resolution of 4.5 ~ 6Å and the reconstruction of its tail with C6 symmetry. The elongated tail structure can be divided into 2-3 structural compartments (similar to the T7 phage; tail fibrils are visible that are attached to the distal tail protein; the tail possesses a distal spike, located parallel to the long axis of the tail, similar to that of phages P22 and SF6. Also, the globular domain is clearly visible. Conclusion: Here, we have, for the first time, reconstructed the capsid and tail of the P.aeruginosa U47 phage and demonstrated that it possesses all the structural features of the Luz-24-like family. Further investigations should shed light to the specific adsorption complex of this phage.

Published in International Journal of Biomedicine

ISSN: 2158-0510 (Print); 2158-0529 (Online)
Publisher: International Medical Research and Development Corporation
Country of publisher: United States
LCC subjects: Medicine
Website: http://www.ijbm.org

About the journal

Abstract

Keywords