Molecular Phylogeny and Taxonomy of Eurasian <I>Neoerysiphe</I

Molecular Phylogeny and Taxonomy of Eurasian <I>Neoerysiphe</I

Persoonia 24, 2010: 81–92 www.persoonia.org RESEARCH ARTICLE doi:10.3767/003158510X501696 Molecular phylogeny and taxonomy of Eurasian Neoerysiphe species infecting Asteraceae and Geranium V. Heluta1, S. Takamatsu 2, M. Harada 2, S. Voytyuk1 Key words Abstract Because Eurasian samples of Neoerysiphe collected on the Asteraceae were not identical in morphology, the molecular and morphological differences among these specimens were compared with those of the American 28S rDNA N. cumminsiana. Neoerysiphe on Asteraceae was found to consist of at least four different species. Three of them Asteraceae are described as new species, viz. N. hiratae, N. joerstadii, and N. nevoi. Neoerysiphe hiratae is a Japanese species Erysiphales parasitizing hosts belonging to the genera Cacalia and Ligularia (tribe Senecioneae). Neoerysiphe joerstadii was Japan found in Israel on Phagnalon rupestre (tribe Gnaphalieae). Neoerysiphe nevoi was recorded in Israel and Ukraine Mediterranean region on a number of hosts in different genera but all belonging to tribe Cichorieae. Thus, Eurasian Neoerysiphe species new species infecting the Asteraceae are strongly specialised to particular tribes of this family. Phylogenetic analyses indicated rDNA ITS region that the three new species were not closely allied. Neoerysiphe hiratae is related to the American N. cumminsiana systematics and species belonging to Oidium subg. Striatoidium. Neoerysiphe nevoi is sister to N. geranii, and N. joerstadii is allied to N. galii. In addition, Ukrainian Neoerysiphe samples on Geranium were phylogenetically and morphologically identical to Japanese samples of N. geranii, and this fungus seems to be an invasive species in Ukraine. Article info Received: 9 September 2009; Accepted: 5 March 2010; Published: 8 April 2010. INTRODUCTION from Turkey (Bahcecioglu et al. 2006). In addition, Takamatsu et al. (2008) revealed that Oidium aloysiae on Aloysia citriodora, Based on the anamorph type, Heluta (1988) proposed to divide O. baccharidis on Baccharis linearis and B. racemosa, and the genus Erysiphe into two separate genera, viz. Erysiphe O. maquii on Aristotelia chilensis are anamorphs of Neoery­ s.str. and Golovinomyces. The former included all species siphe. Thus, at present this genus combines six teleomorph and with an anamorph of the Pseudoidium type (conidia formed three anamorph species, viz. N. chelones on the Scrophularia­ singly on conidiophores), whereas the latter consisted of spe- ceae, N. cumminsiana and O. baccharidis on the Asteraceae, cies with an anamorph of the Oidium s.str. type (= Euoidium; N. galii and N. rubiae on the Rubiaceae, N. geranii on the conidia catenate). Species belonging to two Erysiphe sections Geraniaceae, O. aloysiae on the Verbenaceae, O. maquii on introduced by Braun (1978, 1981), namely Golovinomyces and the Elaeocarpaceae, and N. galeopsidis parasitizing many hosts Galeopsidis, were included in the genus Golovinomyces sensu of Lamiaceae as the main host family but also a few species Heluta (Heluta 1988). Only one species, E. galeopsidis, was in Acanthaceae, Bignoniaceae, Dipsacaceae, and Malvaceae contained in sect. Galeopsidis. This species differed from other (Liu et al. 2005, Takamatsu et al. 2008). Each of these species Erysiphe representatives by its lobed appressoria and matura- has a quite different distribution. Neoerysiphe galeopsidis is tion of ascospores after wintering. It was clarified later that a nearly circumglobal, known from all Europe, Asia, Africa, North few species very close to E. galeopsidis had to be included in America, and New Zealand (Braun 1987). Distributions are sect. Galeopsidis, viz. E. chelones on Scrophulariaceae (USA), rather limited for the remaining species. Neoerysiphe chelones E. cumminsiana on Asteraceae (Asia, North America), E. galii is known from the USA, N. rubiae only from Turkey. Neoerysiphe on Rubiaceae (Europe, Asia), and E. geranii on Geraniaceae galii is a Eurasian species. Neoerysiphe geranii was known from (Japan, New Zealand). However, molecular studies (Saenz Japan and probably from New Zealand (Amano 1986, Nomura & Taylor 1999, Mori et al. 2000) clearly indicated that sect. 1997). Heluta (2001) also reported this fungus from Ukraine. Golovinomyces did not group with sect. Galeopsidis. In addition, Some questions regarding the distributions of certain Neoery­ it was found that the conidium surface of species belonging siphe species have still to be answered. For instance, N. geranii to sect. Galeopsidis is unique among powdery mildew fungi seems to have a more disjunctive distribution. Furthermore, enabling the creation of a new taxon for the anamorphs of this it is also possible that another species morphologically close section, viz. Oidium subg. Striatoidium (Cook et al. 1997). Due to N. geranii is distributed in Ukraine. Braun (1983) described to these morphological, biological, and molecular peculiarities N. cumminsiana on Senecio seemannii from the USA and later of representatives of sect. Galeopsidis, Braun (1999) raised this reported it from North America and Japan on hosts belonging section to genus rank and introduced the name Neoerysiphe. to Cacalia, Eupatorium, Heliopsis, and Ligularia (Braun 1987). The five species in the section were transferred to this new Heluta (1989, 1999) first recorded a powdery mildew on Crepis genus with appropriate new taxonomic combinations. Later, and Taraxacum in Ukraine as Golovinomyces galii, and later another species, N. rubiae, was described on Rubia cf. tinctoria changed it to G. cumminsianus. Voytyuk et al. (2004, 2006) reported N. cumminsiana from Israel on hosts of many genera 1 M.G. Kholodny Institute of Botany of the National Academy of Sciences of of the Asteraceae, viz. Carthamus, Crepis, Filago, Hedypnois, Ukraine, 2 Tereshchenkivska Street, Kiev, 01601, Ukraine; corresponding author e-mail: [email protected]. Phagnalom, Rhagadiolus, Senecio, Thrincia, and Tolpis. Ac- 2 Graduate School of Bioresources, Mie University, 1577 Kurima-Machiya, cording to Voytyuk et al. (2004), N. cumminsiana has a unique Tsu 514-8507, Japan. distribution being the only representative of the Erysiphales © 2010 Nationaal Herbarium Nederland & Centraalbureau voor Schimmelcultures You are free to share - to copy, distribute and transmit the work, under the following conditions: Attribution: You must attribute the work in the manner specified by the author or licensor (but not in any way that suggests that they endorse you or your use of the work). Non-commercial: You may not use this work for commercial purposes. No derivative works: You may not alter, transform, or build upon this work. For any reuse or distribution, you must make clear to others the license terms of this work, which can be found at http://creativecommons.org/licenses/by-nc-nd/3.0/legalcode. Any of the above conditions can be waived if you get permission from the copyright holder. Nothing in this license impairs or restricts the author’s moral rights. 82 Persoonia – Volume 24, 2010 which must be classified as an American-African-Eurasian (DDBJ, EMBL and GenBank) are provided in Table 1. Isolation South Holarctic species. However, this does not correspond to of whole-cell DNA was performed using the chelex method the set of probable geographic and mycoflorogenetic units of (Walsh et al. 1991) as described in Hirata & Takamatsu (1996). powdery mildews proposed by Heluta (1993, 1995). These units The 5’-end of the 28S rDNA, including the domains D1 and D2, consist of species having many factors in common, mainly their and ITS region, including the 5.8S rDNA, were amplified by probable time and place of origin and current habitats. It is also polymerase chain reaction (PCR) and then sequenced using not in accordance with Heluta’s (1992) hypothesis on the ways direct sequencing as described in Takamatsu et al. (2006). of powdery mildew migration. Therefore, Voytyuk et al. (2004) The sequences were initially aligned using the Clustal X pack- assumed that this hypothesis was either not fully correct or age (Thompson et al. 1997). The alignment was then visually N. cumminsiana is a species complex with similar morphologi- refined with MacClade v4.08 (Maddison & Maddison 2005). The cal characteristics. In the latter case ‘N. cumminsiana’ might be alignments were deposited in TreeBASE (www.treebase.org/). descended from an ancestor such as N. galeopsidis and might Phylogenetic trees were obtained from the data using the have emerged independently in several regions of North and maximum parsimony (MP) method in PAUP* 4.0 (Swofford South America, Africa, or Eurasia. In addition, specimens of 2001) and Bayesian analysis in MrBayes 3.1.1 (Huelsenbeck & Israeli ‘N. cumminsiana’ are morphologically not uniform. Voytyuk Ronquist 2001). MP analyses were performed with the heuristic et al. (2004, 2006) reported that collections on Phagnalon search option using the ‘tree-bisection-reconstruction’ (TBR) rupestre had much larger chasmothecia and smaller peridial algorithm with 100 random sequence additions to find the cells than those on other host plants. Furthermore, the taxo- global optimum tree. All sites were treated as unordered and nomic status of Eurasian ‘N. geranii’ and ‘N. cumminsiana’ unweighted, with gaps treated as missing data. The strength was never examined with molecular methods. The goal of this of the internal branches of the resulting trees was tested with study was to clarify the origin of the European populations of bootstrap (BS) analyses (Felsenstein 1985) using 1 000 repli- N. geranii

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