5–5.5 × 3.5–4.5 μm, Decock and Stalpers 2006). Fig. 7 Strict consensus
tree illustrating the phylogeny of three new see more species and related species generated by Maximum Parsimony based on combined ITS + LSU sequences. Parsimony bootstrap proportions (before the/) higher than 50 % and Bayesian posterior probabilities (after the/) more than 0.95 were indicated along branches Perenniporia subdendrohyphidia Decock may be confused with P. substraminea, as they both produce dendrohyphidia and small basidiospores (4–4.8 × 2.8–3.3 μm); however, the former differs by its larger pores (5–7 per mm), and non-dextrinoid basidiospores (Decock 2001b). Molecular phylogeny The combined ITS + nLSU dataset included sequences from 62 fungal specimens representing buy CP673451 33 taxa. The dataset had an aligned
length of 1709 characters in the dataset, of which, 1246 characters are constant, 100 are variable and parsimony-uninformative, and 353 are parsimony-informative. Maximum Parsimony analysis yielded 100 equally parsimonious trees (TL = 1082, CI = 0.416, RI = 0.700, RC = 0.291, HI = 0.584), and a strict consensus tree of these trees is shown in Fig. 7. Bayesian analysis resulted in a same topology with an average standard deviation of split frequencies = 0.007321. Collections of the three new species all formed a well supported clade in the phylogenetic analysis as shown in the combined ITS + nLSU strict consensus tree (Fig. 7). Perenniporia aridula is placed in relation to P. tephropora; however, it represents a monophyletic entity with strong support (100 % BP, 1.00 BPP). Perenniporia bannaensis is selleck inhibitor phylogenetically closely related to, but distinct from P. rhizomorpha and P. subacida based on the ITS + nLSU data. Similarly, P. substraminea is phylogenetically closely related to P. medulla-panis. Discussion In the present study, analysis
using the combined ITS and nLSU dataset produced a well-resolved phylogeny. 31 sampled species belonging to Perenniporia s.l. formed seven clades (Fig. 7), and most of these clades recovered by the combined ITS and nLSU dataset got strong bootstraps and Bayesian posterior probability supports. Clade I is formed by species of Perenniporia s.s., and comprises seven subclades, subclade A includes P. bannaensis Vitamin B12 and P. rhizomorpha, and is characterized by species having resupinate basidiocarps, occasionally branched and strongly dextrinoid skeletal hyphae, and not truncate basidiospores. Subclade B includes P. medulla-panis and P. substraminea, and it is characterized by species having resupinate to effused-reflexed basidiocarps, frequently branched, indextrinoid skeletal hyphae, and truncate, strongly dextrinoid basidiospores. Subclade C is formed by P. japonica (Yasuda) T. Hatt. & Ryvarden, and it is characterized by species having resupinate basidiocarps with white to cream colored rhizomorphs, and a dimitic hyphal system with branched, dextrinoid skeletal hyphae, and truncate, dextrinoid basidiospores; P. tibetica B.K. Cui & C.L.