Abstract
Microdochium majus and Microdochium nivale cause serious disease problems in grasses and cereal crops in the temperate regions. Both fungi can infect the plants during winter (causing pink snow mould) as well as under cool humid conditions during spring and fall. We conducted a pathogenicity test of 15 M. nivale isolates and two M. majus isolates from Norway at low temperature on four different grass cultivars of Lolium perenne and Festulolium hybrids. Significant differences between M. nivale isolates in the ability to cause pink snow mould were detected. The M. nivale strains originally isolated from grasses were more pathogenic than isolates from cereals. The genetic diversity of M. nivale and M. majus isolates was studied by sequencing four genetic regions; Elongation factor-1 alpha (EF-1α), β-tubulin, RNA polymerase II (RPB2) and the Internal Transcribed Spacer (ITS). Phylogenetic trees based on the sequences of these four genetic regions resolved M. nivale and M. majus isolates into separate clades. Higher genetic diversity was found among M. nivale isolates than among M. majus isolates. M. nivale isolates revealed genetic differences related to different host plants (grasses vs. cereals) and different geographic regions (Norway and UK vs. North America). Sequence results from the RPB2 and β-tubulin genes were more informative than those from ITS and EF-1α. The genetic and phenotypic differences detected between Norwegian M. nivale isolates from cereals and grasses support the assumption that host specialization exist within M. nivale isolates.
Highlights
Good quality sequences were obtained from 30 isolates of the EF-1α gene (21 M. nivale and 9 M. majus), 36 isolates of the β-tubulin gene (22 M. nivale and 14 M. majus), 32 isolates of the RPB2 gene (23 M. nivale and 9 M. majus), and 40 isolates of the Internal Transcribed Spacer (ITS) region (28 M. nivale and 12 M. majus)
A pathogenicity tests was conducted with 15 isolates of M. nivale and two isolates of M. majus, all from Norway, on two
The nucleotide sequences of four different genomic regions were studied in approximately 40 M. nivale and M. majus isolates from Norway, England and Ireland to investigate genetic diversity within and among isolates of the two species and the phylogeographic relationships among isolates
Summary
Fries characterized the fungus by its ability to attack wheat and grass plants under snow cover (Noble and Montgomerie 1956). Due to its similarity with Fusarium species, this fungus was given the name F. nivale Ces. ex Berlese & Voglino Gams and Müller 1980). The fungus has been reclassified several times (Booth 1971; Gams 1989; Glynn et al.2005; Samuels and Hallett 1983). Gams and Müller (1980) reclassified the fungus as Gerlachia nivale due to the absence of conidial foot cells. Later Samuels and Hallett (1983) showed that the fungus rather belong to the genus Microdochium
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