Molecular phylogeny and evolution of the maple powdery mildew (Sawadaea, Erysiphaceae) inferred from nuclear rDNA sequences

Simon HIROSE; Seinosuke TANDA; Levente KISS; Banga GRIGALIUNAITE; Maria HAVRYLENKO; Susumu TAKAMATSU

doi:10.1017/S0953756205003527

Abstract

To understand the phylogenetic relationships and evolution of the powdery mildew genus Sawadaea (Ascomycota: Erysiphaceae), obligate parasitic fungi of maples, we performed molecular phylogenetic analyses based on 47 ITS and ten 28S rDNA sequences. Seven major clades of Sawadaea, each represented by powdery mildew specimens collected from a single or a small number of closely related sections of Acer (maples), were identified in this study, suggesting that a close evolutionary relationship exists between Acer (host) and Sawadaea (parasite). A 6–11-base insertion/deletion was found in the ITS1 region of Sawadaea, and the presence or absence of the indel was consistent within the respective clades. Because the outgroup genera Podosphaera and Cystotheca have no deletions in these sites, deletion of the sequences may have occurred during the divergence of the respective clades of Sawadaea. The seven clades of Sawadaea were divided into two geographical groups, viz. an East Asian and a global group, based on the countries of collection. Calculation of the evolutionary timing of Sawadaea using molecular clocks showed that the divergence of different species of Acer occurred many millions of years before the radiation of Sawadaea. Thus, the close evolutionary relationship between Sawadaea and Acer found in this study might not be due to a true coevolutionary process. Powdery mildew fungi belonging to Sawadaea may have jumped onto Acer spp. long after the radiation of the major sections of these trees, and then expanded their host ranges according to the phylogeny and geographical distribution of Acer.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Kiss, Levente Khosla, Kishore Jankovics, Tünde Niinomi, Seiko Braun, Uwe and Takamatsu, Susumu 2006. A morphologically ill-founded powdery mildew species, Pleochaeta indica, is recognized as a phylogenetic species based on the analysis of the nuclear ribosomal DNA sequences. Mycological Research, Vol. 110, Issue. 11, p. 1301.

Vági, Pál Kovács, Gábor M. and Kiss, Levente 2006. Host range expansion in a powdery mildew fungus (Golovinomyces sp.) infecting Arabidopsis thaliana: Torenia fournieri as a new host. European Journal of Plant Pathology, Vol. 117, Issue. 1, p. 89.

DE VIENNE, D. M. GIRAUD, T. and SHYKOFF, J. A. 2007. When can host shifts produce congruent host and parasite phylogenies? A simulation approach. Journal of Evolutionary Biology, Vol. 20, Issue. 4, p. 1428.

Takamatsu, Susumu Ito, Terumitsu Yamamoto, Hideo and Braun, Uwe 2008. Sawadaea nankinensis comb. nov.: a powdery mildew fungus of Acer buergerianum. Mycoscience, Vol. 49, Issue. 3, p. 161.

Takamatsu, Susumu Inagaki, Mihoko Niinomi, Seiko Khodaparast, Seyed Akbar Shin, Hyeon-Dong Grigaliunaite, Banga and Havrylenko, Maria 2008. Comprehensive molecular phylogenetic analysis and evolution of the genus Phyllactinia (Ascomycota: Erysiphales) and its allied genera. Mycological Research, Vol. 112, Issue. 3, p. 299.

Jankovics, T. Bai, Y. Kovács, G. M. Bardin, M. Nicot, P. C. Toyoda, H. Matsuda, Y. Niks, R. E. and Kiss, L. 2008. Oidium neolycopersici: Intraspecific Variability Inferred from Amplified Fragment Length Polymorphism Analysis and Relationship with Closely Related Powdery Mildew Fungi Infecting Various Plant Species. Phytopathology®, Vol. 98, Issue. 5, p. 529.

Refrégier, Guislaine Le Gac, Mickaël Jabbour, Florian Widmer, Alex Shykoff, Jacqui A Yockteng, Roxana Hood, Michael E and Giraud, Tatiana 2008. Cophylogeny of the anther smut fungi and their caryophyllaceous hosts: Prevalence of host shifts and importance of delimiting parasite species for inferring cospeciation. BMC Evolutionary Biology, Vol. 8, Issue. 1,

Giraud, Tatiana Refrégier, Guislaine Le Gac, Mickaël de Vienne, Damien M. and Hood, Michael E. 2008. Speciation in fungi. Fungal Genetics and Biology, Vol. 45, Issue. 6, p. 791.

Glawe, Dean A. 2008. The Powdery Mildews: A Review of the World's Most Familiar (Yet Poorly Known) Plant Pathogens. Annual Review of Phytopathology, Vol. 46, Issue. 1, p. 27.

De VIENNE, D. M. HOOD, M. E. and GIRAUD, T. 2009. Phylogenetic determinants of potential host shifts in fungal pathogens. Journal of Evolutionary Biology, Vol. 22, Issue. 12, p. 2532.

Lumbsch, H. Thorsten Parnmen, Sittiporn Rangsiruji, Achariya and Elix, John A. 2010. Phenotypic disparity and adaptive radiation in the genus Cladia (Lecanorales, Ascomycota). Australian Systematic Botany, Vol. 23, Issue. 4, p. 239.

Braun, U. 2011. The current systematics and taxonomy of the powdery mildews (Erysiphales): an overview. Mycoscience, Vol. 52, Issue. 3, p. 210.

Shin, Hyeon-Dong and Park, Mi-Jeong 2011. Sawadaea koelreuteriae comb, nov., a powdery mildew of Koelreuteria paniculata. The Journal of Microbiology, Vol. 49, Issue. 5, p. 862.

Desprez-Loustau, Marie-Laure Feau, Nicolas Mougou-Hamdane, Amira and Dutech, Cyril 2011. Interspecific and intraspecific diversity in oak powdery mildews in Europe: coevolution history and adaptation to their hosts. Mycoscience, Vol. 52, Issue. 3, p. 165.

Kovács, Gábor M. Jankovics, Tünde and Kiss, Levente 2011. Variation in the nrDNA ITS sequences of some powdery mildew species: do routine molecular identification procedures hide valuable information?. European Journal of Plant Pathology, Vol. 131, Issue. 1, p. 135.

Kelkar, Yogeshwar D. and Ochman, Howard 2012. Causes and Consequences of Genome Expansion in Fungi. Genome Biology and Evolution, Vol. 4, Issue. 1, p. 13.

Que, Y. Xu, L. Lin, J. Chen, R. and Grisham, M. P. 2012. Molecular Variation of Sporisorium scitamineum in Mainland China Revealed by RAPD and SRAP Markers. Plant Disease, Vol. 96, Issue. 10, p. 1519.

Meeboon, Jamjan and Takamatsu, Susumu 2013. Erysiphe havrylenkoana and E. prunastri var. japonica: a new species and a new variety of Erysiphe sect. Uncinula (Erysiphaceae, Ascomycota). Mycological Progress, Vol. 12, Issue. 2, p. 277.

de Vienne, D. M. Refrégier, G. López‐Villavicencio, M. Tellier, A. Hood, M. E. and Giraud, T. 2013. Cospeciation vs host‐shift speciation: methods for testing, evidence from natural associations and relation to coevolution. New Phytologist, Vol. 198, Issue. 2, p. 347.

Meeboon, Jamjan and Takamatsu, Susumu 2015. Erysiphe takamatsui, a powdery mildew of lotus: Rediscovery of teleomorph after 40 years, morphology and phylogeny. Mycoscience, Vol. 56, Issue. 2, p. 159.

Download full list

Article contents

Molecular phylogeny and evolution of the maple powdery mildew (Sawadaea, Erysiphaceae) inferred from nuclear rDNA sequences

Abstract

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Molecular phylogeny and evolution of the maple powdery mildew (Sawadaea, Erysiphaceae) inferred from nuclear rDNA sequences

Abstract

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests