Database of articles cited by EMDB/PDB/SASBDB data

Keywords
Structure methods	All X-ray diffraction NMR electron microscopy small angle scattering neutron diffraction fiber diffraction powder diffraction infrared spectroscopy EPR fluorescence transfer theoretical model Hybrid
Author
Journal
IF	>30 >20 >10 >5 all

Title	High-Resolution Single-Particle Cryo-EM Hydrated Structure of Enolase Offers Insights into Its Function as a Plasminogen Receptor.
Journal, issue, pages	Biochemistry, Vol. 62, Issue 3, Page 735-746, Year 2023
Publish date	Feb 7, 2023
Authors	Sheiny Tjia-Fleck / Bradley M Readnour / Yetunde A Ayinuola / Francis J Castellino /
PubMed Abstract	Cellular plasminogen (Pg) receptors (PgRs) are utilized to recruit Pg; stimulate its activation to the serine protease, plasmin (Pm); and sterically protect the surface Pm from inactivation by host ...Cellular plasminogen (Pg) receptors (PgRs) are utilized to recruit Pg; stimulate its activation to the serine protease, plasmin (Pm); and sterically protect the surface Pm from inactivation by host inhibitors. One such PgR is the moonlighting enzyme, enolase, some of which leaves the cytoplasm and resides at the cell surface to potentially function as a PgR. Since microbes employ conscription of host Pg by PgRs as one virulence mechanism, we explored the structural basis of the ability of enolase (Sen) to function in this manner. Employing single-particle cryo-electron microscopy (cryo-EM), recombinant Sen from was modeled at 2.6 Å as a stable symmetrical doughnut-shaped homooctamer with point group 422 (D4) symmetry, with a monomeric subunit molecular weight of ∼49 kDa. Binding sites for hPg were reported in other studies to include an internal K and the COOH-terminal K residues of Sen. However, in native Sen, the latter are buried within the minor interfaces of the octamer and do not function as a Pg-binding epitope. Whereas Sen and hPg do not interact in solution, when Sen is bound to a surface, hPg interacts with Sen independently of K. PgRs devoid of COOH-terminal lysine utilize lysine isosteres comprising a basic residue, "", and an anionic residue at " + 3" around one turn of an α-helix. We highlight a number of surface-exposed potential hPg-binding lysine isosteres and further conclude that while the octameric structure of Sen is critical for hPg binding, disruption of this octamer without dissociation exposes hPg-binding epitopes.
External links	Biochemistry / PubMed:36701429
Methods	EM (single particle)
Resolution	2.6 - 3.12 Å
Structure data	26406 7ugu EMDB-26406: Structure of enolase from Streptococcus Pyogenes PDB-7ugu: Structure of enolase from streptococcus pyogenes Method: EM (single particle) / Resolution: 2.6 Å 27407 8dg4 EMDB-27407, PDB-8dg4: Group A streptococcus Enolase K252A, K255A, K434A, K435A mutant Method: EM (single particle) / Resolution: 3.12 Å
Source	streptococcus pyogenes (bacteria) streptococcus sp. 'group a' (bacteria)
Keywords	LYASE / metalloenzyme / hPg-receptor