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The Effector BxNMP1 Targets PtTLP-L2 to Mediate PtGLU Promoting Parasitism and Virulence in . | LitMetric

The Effector BxNMP1 Targets PtTLP-L2 to Mediate PtGLU Promoting Parasitism and Virulence in .

Int J Mol Sci

Co-Innovation Center for Sustainable Forestry in Southern China, College of Forestry, Nanjing Forestry University, Nanjing 210037, China.

Published: July 2024

AI Article Synopsis

  • Pine wilt disease (PWD) poses a significant threat to pine trees and results in major economic losses, highlighting the need for better understanding of its molecular mechanisms for effective prevention and treatment.
  • Researchers identified a key virulence effector, BxNMP1, that is expressed early during the infection and interacts with important proteins in pine trees, suggesting it plays a role in disease severity.
  • The study indicates that BxNMP1 not only regulates the pathogenicity of the disease but also interferes with the host's natural defense mechanisms, providing insights that might help in developing strategies for combating PWD.

Article Abstract

is an important economic tree species, but pine wilt disease (PWD) seriously threatens the survival of pine trees. PWD caused by is a major quarantine disease worldwide that causes significant economic losses. However, more information about its molecular pathogenesis is needed, resulting in a lack of effective prevention and treatment measures. In recent years, effectors have become a hot topic in exploring the molecular pathogenic mechanism of pathogens. Here, we identified a specific effector, BxNMP1, from . In situ hybridization experiments revealed that was specifically expressed in dorsal gland cells and intestinal cells, and RT-qPCR experiments revealed that was upregulated in the early stage of infection. The sequence of was different in the avirulent strain, and when -silenced was inoculated into seedlings, the disease severity significantly decreased. We demonstrated that BxNMP1 interacted with the thaumatin-like protein PtTLP-L2 in . Additionally, we found that the β-1,3-glucanase PtGLU interacted with PtTLP-L2. Therefore, we hypothesized that BxNMP1 might indirectly interact with PtGLU through PtTLP-L2 as an intermediate mediator. Both targets can respond to infection, and PtTLP-L2 can enhance the resistance of pine trees. Moreover, we detected increased salicylic acid contents in seedlings inoculated with when was silenced or when the PtTLP-L2 recombinant protein was added. In summary, we identified a key virulence effector of PWNs, BxNMP1. It positively regulates the pathogenicity of and interacts directly with PtTLP-L2 and indirectly with PtGLU. It also inhibits the expression of two targets and the host salicylic acid pathway. This study provides theoretical guidance and a practical basis for controlling PWD and breeding for disease resistance.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11242139PMC
http://dx.doi.org/10.3390/ijms25137452DOI Listing

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