Analysis of Fungal Diversity in the Wheat Rhizosphere by Sequencing of Cloned PCR-Amplified Genes Encoding 18S rRNA and Temperature Gradient Gel Electrophoresis

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Applied and Environmental Microbiology, June 1999, p. 2614-2621, Vol. 65, No. 6
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Analysis of Fungal Diversity in the Wheat Rhizosphere by Sequencing of Cloned PCR-Amplified Genes Encoding 18S rRNA and Temperature Gradient Gel Electrophoresis

Eric Smit,¹^,^* Paula Leeflang,¹ Boet Glandorf,² Jan Dirk van Elsas,³ and Karel Wernars¹

Microbiological Laboratory for Health Protection, National Institute of Public Health and the Environment (RIVM), NL-3720 BA Bilthoven,¹ Section of Plant Pathology, Department of Plant Ecology and Evolutionary Biology, Utrecht University, NL-3508 TB Utrecht,² and Research Institute for Plant Protection (IPO-DLO), NL-6700 Wageningen,³ The Netherlands

Received 3 December 1998/Accepted 19 March 1999

Like bacteria, fungi play an important role in the soil ecosystem. As only a small fraction of the fungi present in soil canbe cultured, conventional microbiological techniques yield onlylimited information on the composition and dynamics of fungalcommunities in soil. DNA-based methods do not depend on the culturabilityof microorganisms, and therefore they offer an attractive alternativefor the study of complex fungal community structures. For thispurpose, we designed various PCR primers that allow the specificamplification of fungal 18S-ribosomal-DNA (rDNA) sequences, evenin the presence of nonfungal 18S rDNA. DNA was extracted fromthe wheat rhizosphere, and 18S rDNA gene banks were constructedin Escherichia coli by cloning PCR products generated with primerpairs EF4-EF3 (1.4 kb) and EF4-fung5 (0.5 kb). Fragments of 0.5kb from the cloned inserts were sequenced and compared to knownrDNA sequences. Sequences from all major fungal taxa were amplifiedby using both primer pairs. As predicted by computer analysis,primer pair EF4-EF3 appeared slightly biased to amplify Basidiomycotaand Zygomycota, whereas EF4-fung5 amplified mainly Ascomycota.The 61 clones that were sequenced matched the sequences of 24different species in the Ribosomal Database Project (RDP) database.Similarity values ranged from 0.676 to 1. Temperature gradientgel electrophoresis (TGGE) analysis of the fungal community inthe wheat rhizosphere of a microcosm experiment was carried outafter amplification of total DNA with both primer pairs. Thisresulted in reproducible, distinctive fingerprints, confirmingthe difference in amplification specificity. Clear banding patternswere obtained with soil and rhizosphere samples by using bothprimer sets in combination. By comparing the electrophoretic mobilityof community fingerprint bands to that of the bands obtained withseparate clones, some could be tentatively identified. While 18S-rDNAsequences do not always provide the taxonomic resolution to identifyfungal species and strains, they do provide information on thediversity and dynamics of groups of related species in environmentalsamples with sufficient resolution to produce discrete bands whichcan be separated by TGGE. This combination of 18S-rDNA PCR amplificationand TGGE community analysis should allow study of the diversity,composition, and dynamics of the fungal community in bulk soiland in therhizosphere.

^* Corresponding author. Mailing address: Microbiological Laboratory for Health Protection, National Institute of Public Healthand the Environment, P.O. Box 1, NL-3720 BA Bilthoven, The Netherlands.Phone: 31 30 2743924. Fax: 31 30 2744434. E-mail: Eric.Smit{at}rivm.nl.

Applied and Environmental Microbiology, June 1999, p. 2614-2621, Vol. 65, No. 6
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

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