Neotyphodium sinicum, from several Roegneria species throughout China, provides insights into the evolution of asexual endophytes

The fungus Neotyphodium sinicum forms an asymptomatic symbiosis with Roegneria grass species which are widely distributed in China. We collected 1,809 asymptomatic specimens of Roegneria, belonging to six species, from around 14 cities in nine provinces. 45.7% of the 1,809 asymptomatic Roegneria plants were endophyte-infected. Of 100 Neotyphodium isolates subsequently obtained, 31 were tested for cultural characteristics. These isolates showed morphological diversity and varying growth rates as well as differences in colony appearance and in conidial lengths. While conidial length of most of the isolates was typical of interspecific hybrid Neotyphodium species, conidial length of some isolates was smaller, similar to that of haploid species. A phylogenetic study was conducted of the tubB and tefA genes in 21 Neotyphodium isolates. The isolates were phylogenetically clustered into three types: 15/21 isolates had two divergent alleles of both tubB and tefA; 3/21 had two alleles of only tubB and 3/21 had two alleles of only tefA. In the tubB NJ tree, alleles-1 formed two distinct sub-clades in the Epichlo? bromicola/E. yangzii clade (EBY); allele-2 was located in three sub-clades widely distributed within the E. typhina clade (ETC). The allele-1 of the tefA gene was also located within the EBY clade and formed two sub-clades; allele-2 was located in 3 sub-clades within the ETC clade. No relationship was observed between phylogenetic relationships and morphology in the N. sinicum isolates. The phylogenetic characteristics had little relationship to the host species or site of origin of the isolates. An explanation consistent with the phylogenetic findings is that N. sinicum is a complex of species that has resulted from multiple independent hybridization events.