No CrossRef data available.
Article contents
RAPD and large subunit nuclear rDNA sequence analyses of the entomogenous fungus Aschersonia
Published online by Cambridge University Press: 13 June 2008
Abstract
Eleven isolates within four species of the entomogenous fungus Aschersonia from China, the USA, Japan, the Philippines, Malaysia and Columbia were characterized using 17 RAPD primers. Genetic diversity among these strains of Aschersonia was found. The clustering results showed that the genetic variability among interspecies was more than that among intraspecies of Aschersonia. In the constructed phylogenetic tree, these isolates were not clustered according to their geographic origins or hosts. Furthermore, sequences of the divergent domain at the 5′-end of the large subunit (LSU) in nuclear rRNA from the mitosporic entomogenous fungi were employed to analyse the phylogenetic relationships of 11 Aschersonia isolates. The relationships of interspecies or intraspecies shown in the phylogenetic tree were almost consistent with the results of the morphological study. Different species isolated from different geographic origins could be clearly distinguished in the tree. But there were no close relationships among species isolated from the same family or order of insect hosts. The tree indicated that isolate Aa, belonging to A. aleyrodis, was the same as Aa992 and Aa3.4485. Moreover, results of RAPD analyses were consistent with those of LSU nuclear rDNA analysis for the same isolates tested, which consequently indicates that both methods can be independently applied for classification and identification of Aschersonia.
- Type
- Research Article
- Information
- Copyright
- Copyright © China Agricultural University and Cambridge University Press 2005
References
Evans, HC and Hywel-Jones, NL (1997) Entomopathogenic fungi. In: Ben-Dov, Y and Hodgson, CJ (editors) Soft Scale Insects: Their Biology, Natural Enemies and Control, vol. 7B. Amsterdam: Elsevier Science, pp. 3–27.CrossRefGoogle Scholar
Jaronski, ST (1997) New paradigms in formulating mycoinsecticides. In: Gross, GR, Hopkinson, MJ and Collins, HM (editors) Pesticide formulations and Application Systems, vol. 4, ASTM STP 1328. Philadelphia: American Society for Testing and Materials, pp. 99–112.CrossRefGoogle Scholar
Mains, EB (1959a) North American species of Aschersonia parasitic on Aleyrodidae. Journal of Insect Pathology 1: 4–47.Google Scholar
Meekes, ETM, van Voorst, S, Joosten, NN, Fransen, JJ and van Lenteren, JC (2000) Persistence of the fungal whitefly pathogen, Aschersonia aleyrodis, on three different plant species. Mycological Research 104 (10): 1234–1240.Google Scholar
Meekes, ETM, Fransen, JJ and van Lenteren, JC (2002) Pathogenicity of Aschersonia sp. against whiteflies Bemisia argentifolii and Trialeurodes vaporariorum. Journal of Invertebrate Pathology 81 (1): 1–11.Google Scholar
Obornik, M, Stouthamer, R, Meeks, E and Schilthuittzen, M (1999) Molecular characterization and phylogeny of the entomopathogenic fungus Aschersonia sp. Plant Protection Science 35: 1–9.CrossRefGoogle Scholar
Petch, T (1921) Studies in entophagenous fungi: III. The genera, Hypocrella and Aschersonia. Annual Royal Botany Gardens, Peradeniya 7: 167–278.Google Scholar