Abstract P-45: Structure of the Bacteriophage AR9 Bacillus Subtilis Chaperonin According to Cryo-Electron Microscopy

Ekaterina S. Maslova; Evgeny B. Pichkur; Pavel I. Semenyuk; Lidia P. Kurochkina; Olga S. Sokolova

doi:10.21103/IJBM.11.Suppl_1.P45

International Journal of Biomedicine (Jun 2021)

Abstract P-45: Structure of the Bacteriophage AR9 Bacillus Subtilis Chaperonin According to Cryo-Electron Microscopy

Ekaterina S. Maslova,
Evgeny B. Pichkur,
Pavel I. Semenyuk,
Lidia P. Kurochkina,
Olga S. Sokolova

Affiliations

Ekaterina S. Maslova: Lomonosov Moscow State University, Moscow, Russia
Evgeny B. Pichkur: National Research Center “Kurchatov Institute,” Moscow, Russia
Pavel I. Semenyuk: Lomonosov Moscow State University, Moscow, Russia
Lidia P. Kurochkina: Lomonosov Moscow State University, Moscow, Russia
Olga S. Sokolova: Lomonosov Moscow State University, Moscow, Russia

DOI: https://doi.org/10.21103/IJBM.11.Suppl_1.P45
Journal volume & issue: Vol. 11, no. Suppl_1
pp. 32 – 32

Abstract

Read online

Background: Chaperonins are a family of molecular chaperones Hsp60 (heat shock proteins 60). GroEL is a bacterial chaperonin. It ensures the correct folding of proteins, using the energy of ATP hydrolysis. Three-dimensional reconstructions of its predicted orthologs were obtained and biochemically characterized in free and nucleotide-bound states for bacteriophages EL Pseudomonas aeruginosa, OBP Pseudomonas fluorescens (Kurochkina, L. P. et al., Journal of virology, 2012; Semenyuk, P. I. et al., Biochemical Journal, 2016; Stanishneva-Konovalova, T. B. et al., Journal of Structural Biology, 2020). Physicochemical studies were carried out for the bacteriophage AR9 Bacillus Subtilis and confirmed that the protein has chaperone activity and does not require co-chaperonin to function (Semenyuk P. I. et al., International Journal of Biological Macromolecules, 2020). Methods: The recombinant chaperonin of the B. subtilis bacterial phage AR9 (gp228) was isolated and purified in a free state and vitrified in Vitrobot Mark IV. Data were collected using a Titan Krios cryo-TEM and processed in Warp, RELION and cryoSPARC software. Results: The final structures of the chaperonin were reconstructed with a C1 and C7 symmetry at the resolution of 4.5 Å and 4.0 Å respectively. Significant heterogeneity of the apical domains was addressed further using 3D classification and symmetry expansion in RELION resulting in a set of classes reflecting the conformational transition of the subunits between different states. At least four different conformational states of the subunit were clearly resolved. Conclusion: Gp228 structure show similarities between bacteriophage chaperonin and also bacterial chaperonin GroEL. It is formed by a single ring consisting of seven identical subunits, each has three domains: equatorial, intermediate, and apical. The subunits of the apo-form chaperonin Gp228 exhibit significant conformational flexibility in the apical and intermediate domains.

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