Bootstrap support (BS) was calculated using 1000 replicates to te

Bootstrap support (BS) was calculated using 1000 replicates to test branch strength. Sequences have been deposited into GenBank (HQ692458-HQ692622). To accelerate the process, phylogenetic

analyses were run using a single representative of each haplotype. Sequences of Xylaria hypoxylon, Daldinia concentrica, Anthostomella eucalytorum, A. protea, Nemania aenea and Camilea tinctor from GenBank were used as outgroup in the ITS analysis. Beta tubulin trees were rooted using E. scoparia as outgroup. Results Phylogenetic analyses ITS and β-tubulin sequences were obtained for approximately 90 isolates of Diatrypaceae collected in Australia. Unique ITS sequences or haplotypes were aligned Selleck Doramapimod with approximately 50 GenBank reference sequences, while the β-tubulin dataset included 24 sequences obtained from GenBank. The ITS analysis comprised 74 learn more taxa and 636 characters, of which 276 were constant, 83 parsimony-uninformative and 277 parsimony-informative. The heuristic search using the ITS dataset resulted in 36 most parsimonious trees of similar topologies, each comprising 1518 steps (CI = 0.4302, RI = 0.7444, RC = 0.3202 and HI = 0.6126). One of

the 36 most parsimonious (MP) trees is shown in Fig. 1. Fig. 1 One of the 36 most-parsimonious trees obtained from the ITS sequence data. (TL = 1518 steps, CI = 0.4302, RI = 0.7444, RC = 0.3202). Bootstrap support values from 1000 replicates higher than 50% are reported Phospholipase D1 at the nodes. Species names in bold represent species occurring in see more Australia In contrast, the β-tubulin dataset contained 45 taxa and 417 characters, of which 207 were constant, 17 parsimony-uninformative, and 194 parsimony-informative.

The MP analysis resulted in 10 trees, each with a length of 703 steps (CI = 0.5391, RI = 0.8253, RC = 0.4450 and HI = 0.4723). Each most parsimonious tree shared the same overall topology, one of which is shown in Fig. 2. Fig. 2 One of the 10 most-parsimonious trees obtained from the β-tubulin sequence data. (TL = 703 steps, CI = 0.5391, RI = 0.8253, RC = 0.4450). Bootstrap support values from 1000 replicates higher than 50% are reported at the nodes. Species names in bold represent species occurring in Australia Grouping of genera and species was generally similar for the ITS and β-tubulin analyses. Bootstrap values from the ITS and β-tubulin data sets (98% and 87% respectively) supported the occurrence of a main clade comprising several Eutypella and Cryptovalsa-like spp. (Figs. 1 – 2). E. microtheca (with 8-spored asci) grouped with the polysporous spp. Eutypella cryptovalsoidea and C. rabenhorstii (96% and 98% respectively) (Figs.1 – 2). Similarly, the octosporous D. oregonensis was closely related to various polysporous Diatrypella spp. (85% and 96% respectively) (Figs. 1 – 2). In the ITS analysis, Diatrype spilomea, D. bullata, D. disciformis, D. stigma, D.

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