scholarly journals Wood Anatomical Characteristics of Domestic Red Pine (Pinus densiflora) Infested by Pine wood Nematode (Bursaphelenchus xylophilus)

2011 ◽  
Vol 39 (1) ◽  
pp. 15-20 ◽  
Author(s):  
Sye-Hee Ahn ◽  
Mun-Jang Jeon ◽  
Young-Geun Eom ◽  
Sei-Chang Oh ◽  
Mi-Rim Lee
Keyword(s):  
Pinus Densiflora ◽  
Bursaphelenchus Xylophilus ◽  
Red Pine ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Anatomical Characteristics

The effect of endobacteria on the development and virulence of the pine wood nematode, Bursaphelenchus xylophilus

Nematology ◽  
2015 ◽  
Vol 17 (5) ◽  
pp. 581-589 ◽  
Author(s):  
Xiao-Jing Tian ◽  
Xiao-Qin Wu ◽  
Yang Xiang ◽  
Xin Fang ◽  
Jian-Ren Ye
Keyword(s):  
Stenotrophomonas Maltophilia ◽  
Pinus Densiflora ◽  
Pine Wilt Disease ◽  
Bursaphelenchus Xylophilus ◽  
Wilt Disease ◽  
Achromobacter Xylosoxidans ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Forest Disease ◽  
High Virulence

Pine wilt disease (PWD) caused by the pine wood nematode (PWN), Bursaphelenchus xylophilus, is a destructive forest disease. Recent studies showed that bacteria associated with PWN might play important roles in PWD. In this study, the effects of endobacteria isolated from PWN on the development and virulence of PWN were evaluated. The results revealed that endobacteria isolated from high virulence PWN could partially promote the development of the nematode, while endobacteria from PWN with low virulence could inhibit the development of nematode. Both bacteria-free and non-sterilised nematodes were able to infect microcuttings of Pinus densiflora. The endobacterial isolates, Stenotrophomonas maltophilia NSBx.14 and Achromobacter xylosoxidans ssp. xylosoxidans NSBx.22, enhanced the virulence of low virulence PWN but reduced the virulence of high virulence PWN. The results suggest the pathogenicity of PWN is not affected by loss of bacteria and endobacteria might play a role in the development and virulence of PWN.

scholarly journals Nematicidal activities of aureothin and alloaureothin from endophytic bacteria, Streptomyces sp. AE170020, against the pine wood nematode, Bursaphelenchus xylophilus

2021 ◽  
Author(s):  
Min-Kyoung Kang ◽  
Jong-Hoon Kim ◽  
Min-Jiao Liu ◽  
Chun-Zhi Jin ◽  
Dong-Jin Park ◽  
...  
Keyword(s):  
Secondary Metabolites ◽  
Endophytic Bacteria ◽  
Pinus Densiflora ◽  
Bursaphelenchus Xylophilus ◽  
Pine Wood Nematode ◽  
Active Components ◽  
Bioactive Substances ◽  
Pine Wood ◽  
Chemical Structures

Abstract Endophytic bacteria, a rich source of bioactive secondary metabolites, are ideal candidates for environmentally benign agents. In this study, an endophytic strain, Streptomyces sp. AE170020, was isolated and selected for the purification of nematicidal substances based on its high nematicidal activity. Two highly active components, aureothin and alloaureothin, were identified, and their chemical structures were determined using spectroscopic analysis. Both compounds suppressed the growth, reproduction, and behavior of Bursaphelenchus xylophilus. In in vivo experiments, the extracts of strain Streptomyces sp. AE170020 effectively suppressed the development of pine wilt disease in four-year-old plants of Pinus densiflora. The potency of secondary metabolites isolated from endophytic strains suggests applications in controlling Bursaphelenchus xylophilus and opens an avenue for further research on exploring bioactive substances against the pine wood nematode.

Pyochelin isolated from Burkholderia arboris KRICT1 carried by pine wood nematodes exhibits phytotoxicity in pine callus

Nematology ◽  
2011 ◽  
Vol 13 (5) ◽  
pp. 521-528 ◽  
Author(s):  
Quang Le Dang ◽  
Seung Wan Son ◽  
Hyang-Mi Cheon ◽  
Gyung Ja Choi ◽  
Yong Ho Choi ◽  
...  
Keyword(s):  
Complex Disease ◽  
Pinus Densiflora ◽  
Fermentation Broth ◽  
Pine Wilt Disease ◽  
Bursaphelenchus Xylophilus ◽  
Wilt Disease ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Phytotoxic Activity ◽  
Pine Wilt

Abstract Pine wilt disease is a very complex disease known to be caused by the pine wood nematode, Bursaphelenchus xylophilus, and its accompanying bacteria. The phytotoxin-producing bacteria have been reported to be involved in the development of pine wilt disease. In this study, we attempted to characterise phytotoxins produced by Burkholderia arboris KRICT1, which was carried by the pine wood nematode. It produced phytotoxic compounds in the pine seedling assay, and the ethyl acetate (EtOAc) layer of the fermentation broth of the strain displayed phytotoxic activity on the pine callus of Pinus densiflora. One active compound was isolated from the EtOAc layer by repeated Sephadex LH-20 column chromatography and preparative TLC. Using mainly mass spectroscopy and nuclear magnetic resonance (NMR) spectroscopy, the chemical structure was determined to be that of pyochelin (a mixture of two interconvertible diastereoisomers, pyochelin I and II). Pyochelin exposure reduced the viability of pine callus. Compared with phenylacetic acid, a phytotoxin produced by Bacillus spp. that was transmitted by B. xylophilus in Japan, pyochelin showed much stronger phytotoxicity. The results suggested that pyochelin might play a role in the wilting process of pine wilt disease.

Influence of fungi on multiplication and distribution of the pine wood nematode, Bursaphelenchus xylophilus, in axenized Pinus thunbergii cuttings

Nematology ◽  
2005 ◽  
Vol 7 (6) ◽  
pp. 809-817 ◽  
Author(s):  
Kazuo Suzuki ◽  
Daisuke Sakaue ◽  
Toshihiro Yamada ◽  
Yu Wang
Keyword(s):  
Population Size ◽  
Early Stage ◽  
Bursaphelenchus Xylophilus ◽  
Pinus Thunbergii ◽  
Disease Development ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Inoculation Site ◽  
Fungal Hyphae ◽  
Close Relationship

AbstractInfluence of fungi on multiplication and distribution of the pine wood nematode (PWN), Bursaphelenchus xylophilus, was investigated in Pinus thunbergii cuttings. Axenized nematodes and/or one of two fungi isolated from healthy and PWN-killed P. thunbergii were inoculated together into autoclaved cuttings. A close relationship between the existence and distribution of fungal hyphae, and the multiplication and distribution of PWN was observed. The PWN did not multiply when only axenized nematodes were inoculated in the absence of fungi. When fungi were present, PWN population size increased markedly. The number of nematodes was high at sites where fungal hyphae were distributed. It is suggested that the restriction of a large portion of the nematode population near the inoculation site during the early stage of disease development is closely related to restricted distribution of fungal hyphae.

Pathogenicity of Bursaphelenchusxylophilus on three species of pine

1987 ◽  
Vol 17 (1) ◽  
pp. 51-57 ◽  
Author(s):  
P. J. Bedker ◽  
M. J. Wingfield ◽  
R. A. Blanchette
Keyword(s):  
Jack Pine ◽  
Red Pine ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Water Extracts ◽  
Pine Trees ◽  
Branch Death

Three species of 11-year-old pine trees were inoculated with Bursaphelenchusxylophilus in the field. Four branches in single whorls on red, Scots, and jack pine trees were wounded and inoculated with 10 000 nematodes each or with water extracts from Botrytiscinerea cultures. Prior to field inoculations, the pathogenicity of the nematode isolate was confirmed on seedlings in the greenhouse. Fourteen weeks after inoculation, 27 of 80 and 13 of 52 branches were dead or dying on Scots and jack pine trees, respectively. No symptoms were observed on red pine trees inoculated with B. xylophilus or on any controls. Branch death was attributed to the formation of girdling cankers resulting from inoculation. An average of 9.14, 10.39, and 0.02 nematodes were extracted per gram of wood from branch samples collected from Scots, jack, and red pine trees at 14 weeks, respectively, and at 58 weeks an average of 13.82, 1.01, and 0.05 nematodes per gram of wood sampled were recovered. Proportions of branch samples with nematodes declined from 14 to 58 weeks after inoculation. Although limited mortality of branches occurred, the pine wood nematode was not found to cause tree death following inoculation.

scholarly journals The effect of feeding behavior of Monochamus alternatus (Coleoptera: Cerambycidae) on the departure of pine wood nematode, Bursaphelenchus xylophilus (Nematoda: Aphelenchoididae)

2019 ◽  
Author(s):  
Yang Wang ◽  
Fengmao Chen ◽  
Lichao Wang ◽  
Lifeng Zhou ◽  
Juan Song
Keyword(s):  
Oxidative Phosphorylation ◽  
Feeding Behavior ◽  
Bursaphelenchus Xylophilus ◽  
Pine Wood Nematode ◽  
Monochamus Alternatus ◽  
Pine Wood ◽  
Start Date ◽  
Significant Difference ◽  
Departure Date ◽  
Effect Of Feeding

AbstractIn order to study the causes of pine wood nematode (PWN) departure from Monochamus alternatus, the effects of the feeding behavior of M. alternatus on the start date of the departure of PWN were studied. The start date of the departure of PWN carried by the directly fed M. alternatus was 5—13 d after beetle emergence, mainly concentrated within 6—10 d, with a mean (±SD) of 8.02 ± 1.96 d. The start date of the departure of PWN carried by the M. alternatus fed after starvation was 5—14 d after beetle emergence, mainly concentrated within 6—9 d, with a mean of 7.76 ± 2.28 d. The results show that there was no significant difference in the start departure date of PWN between the two treatments. This shows that the feeding behavior of M. alternatus is not the trigger for PWN departure. At the same time, it was found that the motility of the PWN carried by M. alternatus at 8 d after emergence was significantly greater than that of the PWN carried by the newly emerged M. alternatus. And the PWN carried by M. alternatus at 8 d after emergence was extracted more easily than the PWN carried by newly emerged beetles. These results show that greater motility was associated with easier departure of PWN from M. alternatus. In addition, transcriptome sequencing found that the level of oxidative phosphorylation metabolism of PWN carried by beetles at 8 d after emergence was significantly higher than that in the PWN carried by newly emerged beetle. High oxidative phosphorylation was associated with increased energy production and motility by the PWN and were the internal cause of the start of nematode departure.

scholarly journals Whole-organism Transcriptomic Insight Into the Effects of Cytco, A Novel Nematotoxic Protein on the Pine Wood Nematode Bursaphelenchus Xylophilus 

2021 ◽  
Author(s):  
Ye Chen ◽  
Xiang Zhou ◽  
Kai Guo ◽  
Sha-Ni Chen ◽  
Xiu Su
Keyword(s):  
Enrichment Analysis ◽  
Transcriptome Profiling ◽  
Bursaphelenchus Xylophilus ◽  
Control Measures ◽  
Effective Control ◽  
Large Set ◽  
Pine Wood Nematode ◽  
Pine Wood ◽  
Protein Toxin ◽  
Insight Into

Abstract Background: The pine wood nematode Bursaphelenchus xylophilus is a worldwide destructive pest on Pinus trees and lacks effective control measures. Screening nematotoxic protein toxins has been conducted to develop new strategies for nematode control. Results: The present study provided initial insights into the responses of B. xylophilus exposed to a nematocidal cytolytic-like protein (CytCo) based on the transcriptome profiling. A large set of differentially expressed genes (1266 DEGs) were found related to nematode development, reproduction, metabolism, motion, and immune system. In response to the toxic protein, B. xylophilus upregulated DEGs encoding cuticle collagens, transporters, and cytochrome P450. In addition, many DEGs related to cell death, lipid metabolism, major sperm proteins, proteinases/peptidases, phosphatases, kinases, virulence factors, and transthyretin-like proteins were downregulated. And Gene Ontology enrichment analysis showed that CytCo treatment significantly affecting DEGs functioning in muscle contraction, lipid localization, MAPK cascade. The pathway richness of Kyoto Encyclopedia of Genes and Genomes showed that the DEGs were concentrated in lysosome and fatty acid degradation. The weight co-expression network analysis indicated that the hub genes affected by CytCo were associated with the nematode cuticular collagen. Conclusions: These results showed that the CytCo protein toxin could interference gene expression to produce multiple nematotoxic effects, providing initial insight into its control potential of pine wood nematode.

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