Abstract
Knowledge of pathogen biology and genetic diversity is a cornerstone of effective disease management, and accurate identification of the pathogen is a foundation of pathogen biology. Species names provide an ideal framework for storage and retrieval of relevant information, a system that is contingent on a clear understanding of species boundaries and consistent species identification. Verticillium, a genus of ascomycete fungi, contains important plant pathogens whose species boundaries have been ill defined. Using phylogenetic analyses, morphological investigations and comparisons to herbarium material and the literature, we established a taxonomic framework for Verticillium comprising ten species, five of which are new to science. We used a collection of 74 isolates representing much of the diversity of Verticillium, and phylogenetic analyses based on the ribosomal internal transcribed spacer region (ITS), partial sequences of the protein coding genes actin (ACT), elongation factor 1-alpha (EF), glyceraldehyde-3-phosphate dehydrogenase (GPD) and tryptophan synthase (TS). Combined analyses of the ACT, EF, GPD and TS datasets recognized two major groups within Verticillium, Clade Flavexudans and Clade Flavnonexudans, reflecting the respective production and absence of yellow hyphal pigments. Clade Flavexudans comprised V. albo-atrum and V. tricorpus as well as the new species V. zaregamsianum, V. isaacii and V. klebahnii, of which the latter two were morphologically indistinguishable from V. tricorpus but may differ in pathogenicity. Clade Flavnonexudans comprised V. nubilum, V. dahliae and V. longisporum, as well as the two new species V. alfalfae and V. nonalfalfae, which resembled the distantly related V. albo-atrum in morphology. Apart from the diploid hybrid V. longisporum, each of the ten species corresponded to a single clade in the phylogenetic tree comprising just one ex-type strain, thereby establishing a direct link to a name tied to a herbarium specimen. A morphology-based key is provided for identification to species or species groups.
Highlights
The genus Verticillium comprises a small group of plantpathogenic fungi that cause billions of dollars of damage annually to a variety of agricultural crops in many parts of the world [1]
DNA sequence data In order to investigate the phylogenetic relationships between Verticillium species, we generated DNA sequence data for 64 isolates, 317 DNA sequences were submitted to GenBank (Accessions internal transcribed spacer region (ITS): JN187963–JN188023; ACT: JN188088–JN188151; elongation factor 1-alpha (EF): JN188216– JN188279; glyceraldehyde-3-phosphate dehydrogenase (GPD): JN188152–JN188215; tryptophan synthase (TS): JN188024–JN188087)
Single-locus analyses To investigate whether the five single-locus datasets (ITS, ACT, GPD, EF, TS) contained similar phylogenetic information, we first analyzed each dataset individually using parsimony
Summary
The genus Verticillium comprises a small group of plantpathogenic fungi that cause billions of dollars of damage annually to a variety of agricultural crops in many parts of the world [1]. The advent of molecular systematics confirmed that Verticillium was composed of several distantly related and ecologically diverse groups which were subsequently removed from Verticillium [8,9] and placed in other genera. These include Lecanicillium, containing insect and fungus pathogens [10,11,12], Pochonia and Haptocillium comprising nematode parasites [13,14], and Gibellulopsis and Musicillium containing plant pathogens [15]. Verticillium is placed in the family Plectosphaerellaceae [15] that is closely related to Colletotrichum in the Glomerellaceae [17], another important group of plant pathogens. Verticillium species reproduce only asexually, no sexual state is known [20]
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