Abstract
Background: Peptidyl-prolyl cis-trans isomerase (PPIase) accelerates the intrinsically slow conversion between cis- and trans- configurations of proline, thus affecting backbone conformation and altering the direction of peptide chains. PPIase from Pseudomonas syringae pv. Tomato (PSPTO) DC3000 (PSPTO-PPIase) is considered to belong to the FKBP subfamily of PPIase.
Objective: To solve the high resolution structure of the PSPTO-PPIase, and to explore its potential function in plants pathogen PSPTO DC3000. Method: The PSPTO-PPIase was expressed in E.coli and purified through ion exchange and size exclusion chromatography. While only the C-terminal domain of PSPTO-PPIase was successfully crystalized, and its structure was solved to 1.6 Å resolution by molecular replacement method. Results: Structural comparison showed that PSPTO-PPIase adopts a similar overall fold with microphage infectivity potentiators (MIPs), which also belong to the FKBP subfamily of PPIase. In addition, the BIAcore result confirmed that PSPTO-PPIase can bind an immunosuppressive drug FK506 as some other FKBP subfamily members do. Conclusion: Our results suggested that PSPTO-PPIase may function in a similar manner to virulent factor MIPs during pathogenesis. And the immunosuppressive drugs FK506 and rapamycin binding to PSPTO-PPIase potentially interferes and inhibits the plant pathogen PSPTO DC3000. In addition, the amino acids with short side chains in the fourth loop (L4) of PSPTO-PPIase may account for its variable roles in the respective pathogen.Keywords: FKBP, PPIase, crystal structure, MIP, FK506, rapamycin.
Graphical Abstract
Related Journals
Current Protein & Peptide Science
Related Books
Frontiers in Protein and Peptide Sciences
Article Metrics
14
1