Adhesion of conidia of the fungus Dilophospora alopecuri to the cuticle of the nematode Anguina agrostis, the vector in annual ryegrass toxicity
References (22)
The nature and adhesion of Coryne-bacterium rathayi to the cuticle of the infective larva of Anguina agrostis
International Journal for Parasitology
(1985)- et al.
The cuticle of Caenorhabditis elegans II. Stage-specific changes in ultrastructure and protein composition during post-embryonic development
Developmental Biology
(1981) - et al.
Ligand-mediated osmium binding: its application in coating biological specimens for scanning electron microscopy
Journal of Ultrastructural Research
(1973) - et al.
Caenorhabditis briggsae and C elegans: Partial characterization of cuticle surface carbohydrates
Experimental Parasitology
(1979) The Dilophospora disease of cereals
Phytopathology
(1925)- et al.
Effect of attachment of Corynebacterium rathayi on movement of Anguina agrostis larvae
International Journal for Parasitology
(1984) - et al.
Host specificity in rhizobium-legume interactions
- et al.
Characterization and localization of saccharides on the head region of four populations of the potato cyst nematode Globod-era rostochiensis and G. pallida
Journal of Nematology
(1986) - et al.
Identification of radio-iodinated cuticular proteins and antigens of Onchocerca gibsoni microfilariae
Acta Tropica
(1981) Mycelial strands of Pinus radiata D. Don: Ultrastructure and histochemistry
New Phytologist
(1981)
Structure of the corynetoxins, metabolites of Corynebacterium rathayi responsible for toxicity of annual ryegrass (Lolium rigidum) pastures
Australian Journal of Chemistry
(1984)
Cited by (14)
A mutualistic interaction between a fungivorous nematode and a fungus within the endophytic community of Bromus tectorum
2012, Fungal EcologyCitation Excerpt :Positive correlations between fungivorous nematodes and fungal biomass have been documented (Ekschmitt & Griffiths 1998). Nematodes may carry bacteria or hyphal fragments and spores on their surfaces and within their digestive systems, dispersing the microbes as they migrate (Bird & McKay 1987; Fu et al. 2005). Fungus-dispersing nematodes can migrate through plant tissue (Neher 2010), and this alone may have allowed F. cf. torulosum to dominate the endophyte community of B. tectorum.
Mechanisms for exsheathment of entomopathogenic nematodes
1991, International Journal for ParasitologyStudies on the surface coat (glycocalyx) of the dauer larva of Angvina agrostis
1989, International Journal for ParasitologyCuticle printing of nematodes
1988, International Journal for Parasitology
Copyright © 1987 Published by Elsevier Ltd.