Academic Thesis

Basic information

Name Michiyoshi Nukaga
Belonging department
Occupation name
researchmap researcher code
researchmap agency

Title

Two Distinctive Binding Modes of Endonuclease Inhibitors to the N-Terminal Region of Influenza Virus Polymerase Acidic Subunit. 

Bibliography Type

Joint Author

Author

 

OwnerRoles

 

Summary

Fudo S, Yamamoto N, Nukaga M, Odagiri T, Tashiro M, Hoshino T.Influenza viruses are global threat to humans, and the development of new antiviral agents are still demanded to prepare for pandemics and to overcome the emerging resistance to the current drugs. Influenza polymerase acidic protein N-terminal domain (PAN) has endonuclease activity and is one of the appropriate targets for novel antiviral agents. First, we performed X-ray cocrystal analysis on the complex structures of PAN with two endonuclease inhibitors. The protein crystallization and the inhibitor soaking were done at pH 5.8. The binding modes of the two inhibitors were different from a common binding mode previously reported for the other influenza virus endonuclease inhibitors. We additionally clarified the complex structures of PAN with the same two endonuclease inhibitors at pH 7.0. In one of the crystal structures, an additional inhibitor molecule, which chelated to the two metal ions in the active site, was observed. On the basis of the crystal structures at pH 7.0, we carried out 100 ns molecular dynamics (MD) simulations for both of the complexes. The analysis of simulation results suggested that the binding mode of each inhibitor to PAN was stable in spite of the partial deviation of the simulation structure from the crystal one. Furthermore, crystal structure analysis and MD simulation were performed for PAN in complex with an inhibitor, which was already reported to have a high compound potency for comparison. The findings on the presence of multiple binding sites at around the PAN substrate-binding pocket will provide a hint for enhancing the binding affinity of inhibitors.
X線結晶解析のサポート

Magazine(name)

Biochemistry. 2016 May 10;55(18):2646-60. doi: 10.1021/acs.biochem.5b01087. Epub 2016 Apr 26.

Publisher

 

Volume

 

Number Of Pages

 

StartingPage

 

EndingPage

 

Date of Issue

2016/05

Referee

 

Invited

 

Language

 

Thesis Type

 

International Journal

 

International Collaboration

 

ISSN

 

eISSN

 

DOI

 

NAID

 

Cinii Books Id

 

PMID

 

PMCID

 

URL

Format

 

Download

 

J-GLOBAL ID

 

arXiv ID

 

ORCID Put Code

 

DBLP ID

 

Subject1

 

Subject2

 

Subject3

 

Major Achivement