Genes Encoding Potential Molecular Mimicry Proteins as the Specific Targets for Detecting <i>Bursaphelenchus xylophilus</i> in PCR and Loop-Mediated Isothermal Amplification Assays

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Abstract

The introduction of the pine wood nematode ( Bursaphelenchus xylophilus) to new areas has affected the international forestry industry because this pathogen causes pine wilt disease (PWD). Therefore, methods for the accurate and reliable detection of B. xylophilus are essential for controlling and managing this pest. The PCR and Loop-Mediated Isothermal Amplification (LAMP) techniques developed in this study involve species-specific primer sets targeting B. xylophilus genes encoding potential molecular mimicry proteins ( Bx-tlp-1, Bx-tlp-2, and Bx-cpi), which are associated with pathogenicity. The PCR and LAMP results revealed that the primers were specific for B. xylophilus Bx-tlp-1, Bx-tlp-2, and Bx-cpi. Moreover, our LAMP assay targeting Bx-tlp-1 conducted at 63°C detected B. xylophilus within 20 min and B. xylophilus from Monochamus alternatus or M. saltuarius within 30 min. The lower limits of detection for the LAMP and PCR assays were 10 pg and 10 ng genomic DNA, respectively, implying these assays may be useful for the rapid detection of B. xylophilus in pine forests. Designing primers specific for Bx-tlp-1, Bx-tlp-2, and Bx-cpi enabled the relatively rapid detection of B. xylophilus isolates as well as M. alternatus or M. saltuarius carrying B. xylophilus. These primers, which were designed following a thorough functional analysis of key B. xylophilus pathogenicity-related genes, may be useful for developing improved assays for the early diagnosis and prevention of PWD.

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Loop-mediated isothermal amplification of DNA.

T. Notomi (2000)

We have developed a novel method, termed loop-mediated isothermal amplification (LAMP), that amplifies DNA with high specificity, efficiency and rapidity under isothermal conditions. This method employs a DNA polymerase and a set of four specially designed primers that recognize a total of six distinct sequences on the target DNA. An inner primer containing sequences of the sense and antisense strands of the target DNA initiates LAMP. The following strand displacement DNA synthesis primed by an outer primer releases a single-stranded DNA. This serves as template for DNA synthesis primed by the second inner and outer primers that hybridize to the other end of the target, which produces a stem-loop DNA structure. In subsequent LAMP cycling one inner primer hybridizes to the loop on the product and initiates displacement DNA synthesis, yielding the original stem-loop DNA and a new stem-loop DNA with a stem twice as long. The cycling reaction continues with accumulation of 10(9) copies of target in less than an hour. The final products are stem-loop DNAs with several inverted repeats of the target and cauliflower-like structures with multiple loops formed by annealing between alternately inverted repeats of the target in the same strand. Because LAMP recognizes the target by six distinct sequences initially and by four distinct sequences afterwards, it is expected to amplify the target sequence with high selectivity.

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Loop-mediated isothermal amplification (LAMP) of gene sequences and simple visual detection of products.

Norihiro Tomita, Yasuyoshi Mori, Hidetoshi Kanda … (2008)

As the human genome is decoded and its involvement in diseases is being revealed through postgenome research, increased adoption of genetic testing is expected. Critical to such testing methods is the ease of implementation and comprehensible presentation of amplification results. Loop-mediated isothermal amplification (LAMP) is a simple, rapid, specific and cost-effective nucleic acid amplification method when compared to PCR, nucleic acid sequence-based amplification, self-sustained sequence replication and strand displacement amplification. This protocol details an improved simple visual detection system for the results of the LAMP reaction. In LAMP, a large amount of DNA is synthesized, yielding a large pyrophosphate ion by-product. Pyrophosphate ion combines with divalent metallic ion to form an insoluble salt. Adding manganous ion and calcein, a fluorescent metal indicator, to the reaction solution allows a visualization of substantial alteration of the fluorescence during the one-step amplification reaction, which takes 30-60 min. As the signal recognition is highly sensitive, this system enables visual discrimination of results without costly specialized equipment. This detection method should be helpful in basic research on medicine and pharmacy, environmental hygiene, point-of-care testing and more.

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Pine wood nematode, Bursaphelenchus xylophilus.

K Futai (2012)

After devastating vast areas of pine forests in Asian countries, the pine wilt disease spread into European forests in 1999 and is causing worldwide concern. This disease involves very complicated interactions between a pathogenic nematode, its vector beetle, host pine species, and fungi in dead hosts. Pathogenicity of the pine wood nematode is determined not only by its physical and chemical traits but also by its behavioral traits. Most life history traits of the pine wood nematode, such as its phoretic relationship with vector beetles, seem to be more effective in virulent than in avirulent isolates or species. As the pathogenicity determinants, secreted enzymes, and surface coat proteins are very important, they have therefore been studied intensively. The mechanism of quick death of a large pine tree as a result of infection by a tiny nematode could be ascribed to the dysfunction of the water-conducting system caused by the death of parenchyma cells, which must have originally evolved as an inherent resistant system.

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Author and article information

Contributors

Fanli Meng: URI : https://loop.frontiersin.org/people/1708931/overview

Zhenkai Liu: URI : https://loop.frontiersin.org/people/1069941/overview

Journal

Journal ID (nlm-ta): Front Plant Sci

Journal ID (iso-abbrev): Front Plant Sci

Journal ID (publisher-id): Front. Plant Sci.

Title: Frontiers in Plant Science

Publisher: Frontiers Media S.A.

ISSN (Electronic): 1664-462X

Publication date (Electronic): 11 May 2022

Publication date Collection: 2022

Volume: 13

Electronic Location Identifier: 890949

Affiliations

[1] ¹The Key Laboratory for Silviculture and Conservation of Ministry of Education, College of Forestry, Beijing Forestry University , Beijing, China

[2] ²Key Laboratory of Forest Protection of National Forestry and Grassland Administration, Ecology and Nature Conservation Institute, Chinese Academy of Forestry , Beijing, China

[3] ³Co-Innovation Center for Sustainable Forestry in Southern China, Nanjing Forestry University , Nanjing, China

Author notes

Edited by: Anna Filipiak, Institute of Plant Protection – National Research Institute, Poland

Reviewed by: Kai Guo, Zhejiang Agriculture and Forestry University, China; Alfonso Navas, CSIC, Spain

*Correspondence: Yongxia Li, lyx020419@ 123456caf.ac.cn

This article was submitted to Plant Pathogen Interactions, a section of the journal Frontiers in Plant Science

Article

DOI: 10.3389/fpls.2022.890949

PMC ID: 9131030

PubMed ID: 35646005

SO-VID: e81937d1-eec6-4dc9-979d-c7259176b86a

License:

This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.

History

Date received : 07 March 2022

Date accepted : 05 April 2022

Page count

Figures: 4, Tables: 4, Equations: 0, References: 29, Pages: 9, Words: 6241

Funding

Funded by: Fundamental Research Funds for the Central Universities , doi 10.13039/501100012226;

Award ID: 2021ZY03

Funded by: China Postdoctoral Science Foundation , doi 10.13039/501100002858;

Award ID: 2020M680410

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Genes Encoding Potential Molecular Mimicry Proteins as the Specific Targets for Detecting Bursaphelenchus xylophilus in PCR and Loop-Mediated Isothermal Amplification Assays

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Most cited references 29

Loop-mediated isothermal amplification of DNA.

Loop-mediated isothermal amplification (LAMP) of gene sequences and simple visual detection of products.

Pine wood nematode, Bursaphelenchus xylophilus.

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