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TitleDimerization-Induced Allosteric Changes of the Oxyanion-Hole Loop Activate the Pseudorabies Virus Assemblin pUL26N, a Herpesvirus Serine Protease.
Journal, issue, pagesPLoS Pathog, Vol. 11, Issue 7, Page e1005045, Year 2015
Publish dateJul 10, 2015
AuthorsMartin Zühlsdorf / Sebastiaan Werten / Barbara G Klupp / Gottfried J Palm / Thomas C Mettenleiter / Winfried Hinrichs /
PubMed AbstractHerpesviruses encode a characteristic serine protease with a unique fold and an active site that comprises the unusual triad Ser-His-His. The protease is essential for viral replication and as such ...Herpesviruses encode a characteristic serine protease with a unique fold and an active site that comprises the unusual triad Ser-His-His. The protease is essential for viral replication and as such constitutes a promising drug target. In solution, a dynamic equilibrium exists between an inactive monomeric and an active dimeric form of the enzyme, which is believed to play a key regulatory role in the orchestration of proteolysis and capsid assembly. Currently available crystal structures of herpesvirus proteases correspond either to the dimeric state or to complexes with peptide mimetics that alter the dimerization interface. In contrast, the structure of the native monomeric state has remained elusive. Here, we present the three-dimensional structures of native monomeric, active dimeric, and diisopropyl fluorophosphate-inhibited dimeric protease derived from pseudorabies virus, an alphaherpesvirus of swine. These structures, solved by X-ray crystallography to respective resolutions of 2.05, 2.10 and 2.03 Å, allow a direct comparison of the main conformational states of the protease. In the dimeric form, a functional oxyanion hole is formed by a loop of 10 amino-acid residues encompassing two consecutive arginine residues (Arg136 and Arg137); both are strictly conserved throughout the herpesviruses. In the monomeric form, the top of the loop is shifted by approximately 11 Å, resulting in a complete disruption of the oxyanion hole and loss of activity. The dimerization-induced allosteric changes described here form the physical basis for the concentration-dependent activation of the protease, which is essential for proper virus replication. Small-angle X-ray scattering experiments confirmed a concentration-dependent equilibrium of monomeric and dimeric protease in solution.
External linksPLoS Pathog / PubMed:26161660 / PubMed Central
MethodsSAS (X-ray synchrotron) / X-ray diffraction
Resolution2.03 - 2.53 Å
Structure data

SASDA58:
UL26N of pseudorabies virus (VP24, UL26N)
Method: SAXS/SANS

PDB-4cx8:
Monomeric pseudorabies virus protease pUL26N at 2.5 A resolution
Method: X-RAY DIFFRACTION / Resolution: 2.53 Å

PDB-4v07:
Dimeric pseudorabies virus protease pUL26N at 2.1 A resolution
Method: X-RAY DIFFRACTION / Resolution: 2.1 Å

PDB-4v08:
Inhibited dimeric pseudorabies virus protease pUL26N at 2 A resolution
Method: X-RAY DIFFRACTION / Resolution: 2.03 Å

PDB-4v0t:
Monomeric pseudorabies virus protease pUL26N at 2.1 A resolution
Method: X-RAY DIFFRACTION / Resolution: 2.05 Å

Chemicals

ChemComp-HOH:
WATER

ChemComp-CL:
Unknown entry

ChemComp-MG:
Unknown entry

ChemComp-DFP:
DIISOPROPYL PHOSPHONATE

Source
  • suid herpesvirus 1
KeywordsVIRAL PROTEIN / ASSEMBLIN / UL26 / PRV / UL26P / SERINE PROTEASE / HERPES / HERPES VIRUS / PROTEASE / SUID / HYDROLASE

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