Article | 21-July-2017
The use of natural compounds to control phytonematodes is significantly increasing, as most of the old synthetic pesticides have been banned due to their eco-hostile character. Plant secondary metabolites are now evaluated as biologically active molecules against Meloidogyne spp. but their target site in the nematode body is rarely specified.Herein, we report on the ultrastructure modifications of the Meloidogyne incognita J2 after treatment with nematicidal plant secondary
NIKOLETTA NTALLI,
MARLENA RATAJCZAK,
CHRISOSTOMOS OPLOS,
URANIA MENKISSOGLU-SPIROUDI,
ZBIGNIEW ADAMSKI
Journal of Nematology, Volume 48 , ISSUE 4, 248–260
research-article | 30-November-2020
Nathan E. Schroeder
Journal of Nematology, Volume 53 , 1–9
research-article | 30-November-2019
Shigeru Uematsu,
Tetsuo Yabu,
Mitsuyoshi Yao,
Takayuki Kurihara,
Hironori Koga
Journal of Nematology, Volume 52 , 1–9
Research paper | 06-February-2018
-lesion. Anterograde tracing analyses exhibited a progressive decline of TCA fiber density in barrel field for 6 months post-lesion. Due to the abrupt decrease of TCA fiber density at 3 days after compression, we further used electron microscopy to investigate the ultrastructure of TCA fibers at this time. Some TCA fiber terminal profiles with dissolved or darkened mitochondria and fewer synaptic vesicles were distorted and broken. Furthermore, the disruption of mitochondria and myelin sheath was
Tzu-Yin Yeh,
Guo-Fang Tseng,
Chi-Yu Tseng,
Yung-Hsin Huang,
Pei-Hsin Liu
Acta Neurobiologiae Experimentalis, Volume 77 , ISSUE 1, 1–17