Intraspecific ITS variability in the kingdom fungi as expressed in the international sequence databases and its implications for molecular species identification

R Henrik Nilsson¹, Erik Kristiansson, Martin Ryberg, Nils Hallenberg, Karl-Henrik Larsson

Affiliations

PMID: 19204817
PMCID: PMC2614188
DOI: 10.4137/ebo.s653

Intraspecific ITS variability in the kingdom fungi as expressed in the international sequence databases and its implications for molecular species identification

R Henrik Nilsson et al. Evol Bioinform Online. 2008.

. 2008 May 26:4:193-201.

doi: 10.4137/ebo.s653.

Authors

R Henrik Nilsson¹, Erik Kristiansson, Martin Ryberg, Nils Hallenberg, Karl-Henrik Larsson

Affiliation

¹ Department of Plant and Environmental Sciences, University of Gothenburg, Box 461, 405 30 Göteborg, Sweden. henrik.nilsson@dpes.gu.se

PMID: 19204817
PMCID: PMC2614188
DOI: 10.4137/ebo.s653

Abstract

The internal transcribed spacer (ITS) region of the nuclear ribosomal repeat unit is the most popular locus for species identification and subgeneric phylogenetic inference in sequence-based mycological research. The region is known to show certain variability even within species, although its intraspecific variability is often held to be limited and clearly separated from interspecific variability. The existence of such a divide between intra- and interspecific variability is implicitly assumed by automated approaches to species identification, but whether intraspecific variability indeed is negligible within the fungal kingdom remains contentious. The present study estimates the intraspecific ITS variability in all fungi presently available to the mycological community through the international sequence databases. Substantial differences were found within the kingdom, and the results are not easily correlated to the taxonomic affiliation or nutritional mode of the taxa considered. No single unifying yet stringent upper limit for intraspecific variability, such as the canonical 3% threshold, appears to be applicable with the desired outcome throughout the fungi. Our results caution against simplified approaches to automated ITS-based species delimitation and reiterate the need for taxonomic expertise in the translation of sequence data into species names.

Keywords: fungi; intraspecific variation; molecular species delimitation.

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Figures

**Figure 1**
The proportion of fungal species in this study having intraspecific variabilities in the ranges depicted of (A) the *ITS1* region, (B) the *ITS2* region, and (C) the *ITS1*, *5.8S*, and *ITS2* regions combined.

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Intraspecific ITS variability in the kingdom fungi as expressed in the international sequence databases and its implications for molecular species identification

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Intraspecific ITS variability in the kingdom fungi as expressed in the international sequence databases and its implications for molecular species identification

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Abstract

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