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De novo analysis of the transcriptome of Pratylenchus zeae to identify transcripts for proteins required for structural integrity,sensation, locomotion and parasitism
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John Fosu‐Nyarko Jo‐Anne C. H. Tan Reetinder Gill Vaughan G. Agrez Uma Rao Michael G. K. Jones 《Molecular Plant Pathology》2016,17(4):532-552
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In planta secretion of a calreticulin by migratory and sedentary stages of root-knot nematode 总被引:1,自引:0,他引:1
Jaubert S Milac AL Petrescu AJ de Almeida-Engler J Abad P Rosso MN 《Molecular plant-microbe interactions : MPMI》2005,18(12):1277-1284
Esophageal secretions from endoparasitic sedentary nematodes are thought to play key roles throughout plant parasitism, in particular during the invasion of the root tissue and the initiation and maintenance of the nematode feeding site (NFS) essential for nematode development. The secretion in planta of esophageal cell-wall-degrading enzymes by migratory juveniles has been shown, suggesting a role for these enzymes in the invasion phase. Nevertheless, the secretion of an esophageal gland protein into the NFS by nematode sedentary stages has never been demonstrated. The calreticulin Mi-CRT is a protein synthesized in the esophageal glands of the root-knot nematode Meloidogyne incognita. After three-dimensional modeling of the Mi-CRT protein, a surface peptide was selected to raise specific antibodies. In planta immunolocalization showed that Mi-CRT is secreted by migratory and sedentary stage nematodes, suggesting a role for Mi-CRT throughout parasitism. During the maintenance of the NFS, the secreted Mi-CRT was localized outside the nematode at the tip of the stylet. In addition, Mi-CRT accumulation was observed along the cell wall of the giant cells that compose the feeding site, providing evidence for a nematode esophageal protein secretion into the NFS. 相似文献
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Plant parasitic nematodes and arbuscular mycorrhizal fungi (AMF) share plant roots as a resource for food and space. The interest in AMF-nematode interactions lies in the possibility of enhanced resistance or tolerance of AMF-infected plants to nematodes, and the potential value of this for control of crop pests. Data collated from previous studies revealed a great diversity of AMF-nematode responses and we seek to generalise from these by evaluating and discussing interactions involving three groups of nematodes distinguished by their mode of parasitism: (i) ectoparasites; (ii) sedentary endoparasites; and (iii) migratory endoparasites. Based on proximity in tissue, we expected that the interactions between endoparasites and AMF would be stronger, i.e. more reciprocal effects of endoparasitic nematodes on AMF, than those between ectoparasites and AMF. Contrary to this hypothesis, we found that, relative to AMF-free plants, AMF-infected plants were damaged more by ectoparasites than by endoparasites. Of the sedentary endoparasites, numbers of root-knot nematodes were reduced more by mycorrhizal infection than were those of cyst nematodes. The reduction in nematode damage by AMF was not different for root-knot or cyst nematode infested plants. Migratory endoparasitic nematodes were the only group whose numbers were greater on AMF-infected plants. However, the experiments involving migratory nematodes were characterised by relatively high levels of AMF infection and little nematode damage compared to the other feeding types. The outcomes of the AMF-nematode interactions are determined by many factors during the interactions between organisms and their physical, physiological and temporal environments. Assessing effects by recording plant sizes and total nematode or AMF populations at the end of experiments gives very little information on the mechanisms of the interactions. It is time to stop doing studies of black boxes and time to start observing processes, directly by using microscopy and indirectly by application of molecular genetics. 相似文献
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Alexander R. Mendoza Sebastian Kiewnick Richard A. Sikora 《Biocontrol Science and Technology》2008,18(4):377-389
Antagonistic bacteria have been repeatedly shown to be promising microorganisms for the biological control of sedentary and migratory endoparasitic nematodes. Depending on the bacteria involved, the mechanisms of action include: obligate parasitism, reduction in penetration, growth inhibition due to competition for nutrients and antibiosis associated with bioactive metabolites. In the present studies, the mode of action of the antagonist bacteria Bacillus firmus, isolated from a bionematicide, was evaluated. Significant rates of paralysis and mortality were detected after incubation of three nematode species in low concentrations of the pure culture filtrates following removal of the bacterial cells. The same culture filtrates also significantly reduced hatching of Meloidogyne incognita. Pure bacterial cell suspensions added to sand also reduced survival of R. similis in bioassays by 41% over the controls. The mode-of-action responsible for nematode paralysis and mortality was therefore demonstrated to be closely associated with the production of bioactive compounds secondary metabolites by the bacteria. 相似文献
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Four Musa cultivars, differing in nematode susceptibility, were selected to study their relative mycorrhizal dependency and to study the interaction between the arbuscular mycorrhizal fungus (AMF), Glomus mosseae, and two migratory endoparasitic nematodes, Radopholus similis and Pratylenchus coffeae. Mycorrhization with G. mosseae resulted in significantly better plant growth, even in the presence of R. similis and P. coffeae. No differences in relative mycorrhizal dependency (RMD) were observed among the four cultivars. G. mosseae suppressed nematode population build-up in Grande Naine and Pisang Jari Buaya. Only in the case of R. similis (Indonesian population) in Pisang Jari Buaya, no significant suppression was observed. In the case of P. coffeae, the AMF reduced the damage in the roots, caused by the nematodes. For R. similis, no reduction of damage was observed. In all, except one experiment, the frequency of the mycorrhizal colonisation was negatively affected by the nematodes. 相似文献
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The mechanisms by which seed-applied bacteria colonize the rhizosphere in the absence of percolating water are poorly understood. Without mass flow, transport of bacteria by growing roots or soil animals, particularly nematodes may be important. We used a sand-based microcosm system to investigate the ability of three species of nematodes (Caenorhabditis elegans, Acrobeloides thornei and a Cruznema sp.) to promote rhizosphere colonization by four strains of beneficial rhizobacteria. In nearly all cases, rhizosphere colonization was substantially increased by the presence of nematodes, irrespective of bacterial or nematode species. Our results suggest that nematodes are important vectors for bacteria rhizosphere colonization in the absence of percolating water. 相似文献
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Sawadogo A Thio B Kiemde S Drabo I Dabire C Ouedraogo J Mullens TR Ehlers JD Roberts PA 《Journal of nematology》2009,41(2):120-127
A comprehensive survey of the plant parasitic nematodes associated with cowpea (Vigna unguiculata) production fields was carried out in the three primary agro-climatic zones of Burkina Faso in West Africa. Across the three zones, a total of 109 samples were collected from the farms of 32 villages to provide a representative coverage of the cowpea production areas. Samples of rhizosphere soil and samples of roots from actively growing cowpea plants were collected during mid- to late-season. Twelve plant-parasitic nematode genera were identified, of which six appeared to have significant parasitic potential on cowpea based on their frequency and abundance. These included Helicotylenchus, Meloidogyne, Pratylenchus, Scutellonema, Telotylenchus, and Tylenchorhynchus. Criconemella and Rotylenchulus also had significant levels of abundance and frequency, respectively. Of the primary genera, Meloidogyne, Pratylenchus, and Scutellonema contained species which are known or suspected to cause losses of cowpea yield in other parts of the world. According to the prevalence and distribution of these genera in Burkina Faso, their potential for damage to cowpea increased from the dry Sahelian semi-desert zone in the north (annual rainfall < 600 mm/year), through the north-central Soudanian zone (annual rainfall of 600-800 mm/year), to the wet Soudanian zone (annual rainfall ≥ 1000 mm) in the more humid south-western region of the country. This distribution trend was particularly apparent for the endoparasitic nematode Meloidogyne and the migratory endoparasite Pratylenchus. 相似文献
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Identification and characterization of parasitism genes from the pinewood nematode Bursaphelenchus xylophilus reveals a multilayered detoxification strategy 总被引:1,自引:0,他引:1
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Margarida Espada Ana Cláudia Silva Sebastian Eves van den Akker Peter J. A. Cock Manuel Mota John T. Jones 《Molecular Plant Pathology》2016,17(2):286-295
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Root and soil samples from 21 trees blown down in Kew Gardens during the gales of October 1987 yielded 29 species of plant parasitic nematodes. Pratylenchus crenatus, P. thornei and P. penetrans were the only endoparasitic nematodes found. The common occurrence of P. crenatus and the root ectoparasitic nematodes, such as Merlinius microdorus, Paratrichodorus pachydermus and Rotylenchus robustus reflected the predominantly sandy nature of most of the soil samples. Species rarely recorded in Britain included Hemicriconemoides pseudobrachyurum, Paralongidorus maximus and Xiphinema pseudocoxi, all of which may be introductions. 相似文献