Arthrobotrys oligospora, a predacious fungus of nematodes, has been very useful in understanding the relationship between nematophagous fungi and their nematode hosts. Arthrobotrys oligospora is by far the most common nematode-trapping fungus with the characteristic ability of forming adhesive trapping nets once in contact with nematodes. This review highlights the versatility and development.
General information about Arthrobotrys oligospora (ARTBOL) THIS WEBSITE USES COOKIES Our website uses cookies to ensure that we give you the best possible online experience. We do not use these to store personal information about you.Continuing to use this website means you agree to our use of cookies.
Nordbring-Hertz B, Brinck B. Qualitative characterization of some peptides inducing morphogenesis in the nematode- trapping fungus Arthrobotrys oligospora. Physiol Plant 31: 59-63, 1974. Lysek G, Nordbring-Hertz B. An endogenous rhythm of trap formation in the nematophagous fungus Arthrobotrys oligospora. Planta 152: 50-53, 1981.
An Investigation On Sumateran Arthrobotrys Oligospora And Carbofuran Againts Root-Knot Nematode (Meloidogyne Hapla) On Tomato (Solanum Lycopersicum Mill.) Liana Dwi Sri Hastuti, Jane Faull Abstract: A bioassay pot trial using three species of the nematode-trapping fungi isolated from Sumatera Utara Indonesia were tested for potential as.
Arthrobotrys oligospora is one of the most important predaceous fungi occurring widely in different types of soil. This fungus produces the hyphal bails and network compound. This hyphal nets as trapping structure which may be single dimensional to two or three dimensional and are formed through repeated hyphal anastomosis, which capture nematodes either through the adhesive material present on.
Antagonistic fungi are well-known as viable alternatives to chemical control of root-knot nematodes. In this paper, serine protease Ac1 as an important pathogenicity factor was used to enhance the antagonistic activity of Arthrobotrys conoides and A. oligospora against Meloidogyne javanica J 2 (second stage juveniles). Ac1 gene was extracted from A. conoides and cloned in pCAMBIA1304 vector.
Classification kingdom Fungi phylum. Arthrobotrys oligospora var. microspora (Soprunov) Oorschot Arthrobotrys oligospora var. sarmatica (Jarow.) Oorschot Arthrobotrys oligosporus var. microsporus (Soprunov) Oorschot, 1985 Arthrobotrys oligosporus var. oligosporus Arthrobotrys oligosporus var. sarmaticus (Jarow.) Oorschot, 1985 Arthrobotrys superba var. oligospora (Fresen.) Coem.
In this study, three conidial proteomes of Arthrobotrys oligospora ATCC24927, a nematode-trapping fungus, were obtained, quantified, and compared. Under benzaldehyde fungistatic stress, conidial protein expression profile changed significantly. Screening with a twofold selection criterion revealed 164 up-regulated and 110 down-regulated proteins. 17 proteins related to protein translation were.
Effeet ofArthrobotrys irregularis on Meloidogyne arenaria on tomato plants Effie VOUYOUKALOU N.A.RF., Institute ofSubtropical Plants and Olive Tree, 73100 Chania, Greece. Accepted for publication 4 November 1992. SUlllIIlary - The effectiveness ofArthrobotrys irregularis against Meloidogyne arenaria on tomato plants was tested in experiments.
The nematode-trapping fungus Arthrobotrys oligospora captures nematodes by using special hyphae which form a three-dimensional network. Previous studies have shown that the adhesion, penetration, and immobilization ofnem-atodes take place within an hour after the nematodes are addedto the fungus (20, 28). In this paper, weshowthatA.
Meanwhile in Great Britain, Goodey(1938) found Arthrobotrys oligospora capturing Anguillulina dipsaci on leaves of Calceolaria integrifolia. A series of papers were written from 1939 to 1941 by a group of Frenchmen who were working on the control of animal pathogens with predaceous fungi. These included.