Multiple Didymella teleomorphs are linked to the Phoma clematidina  morphotype

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Abstract

The fungal pathogen Phoma clematidina is used as a biological agent to control the invasive plant species Clematis vitalba in New Zealand. Research conducted on P. clematidina as a potential biocontrol agent against C. vitalba, led to the discovery of two perithecial-forming strains. To assess the diversity of P. clematidina and to clarify the teleomorph-anamorph relationship, phylogenetic analyses of 18 P. clematidina strains, reference strains representing the Phoma sections in the Didymellaceae and strains of related species associated with Clematis were conducted. Partial sequences of the ITS1, ITS2 and 5.8S rRNA gene, the ß-tubulin gene and 28S rRNA gene were used to clarify intra- and inter-species relationships. These analyses revealed that P. clematidina resolves into three well-supported clades which appear to be linked to differences in host specificity. Based on these findings, Didymella clematidis is newly described and the descriptions of P. clematidina and D. vitalbina are amended.

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Most cited references 2

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TreeView: an application to display phylogenetic trees on personal computers.

R D Page (1996)

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Mycosphaerella is polyphyletic

P.W. Crous, U. Braun, J.Z. Groenewald (2007)

Mycosphaerella, one of the largest genera of ascomycetes, encompasses several thousand species and has anamorphs residing in more than 30 form genera. Although previous phylogenetic studies based on the ITS rDNA locus supported the monophyly of the genus, DNA sequence data derived from the LSU gene distinguish several clades and families in what has hitherto been considered to represent the Mycosphaerellaceae. Several important leaf spotting and extremotolerant species need to be disposed to the genus Teratosphaeria, for which a new family, the Teratosphaeriaceae, is introduced. Other distinct clades represent the Schizothyriaceae, Davidiellaceae, Capnodiaceae, and the Mycosphaerellaceae. Within the two major clades, namely Teratosphaeriaceae and Mycosphaerellaceae, most anamorph genera are polyphyletic, and new anamorph concepts need to be derived to cope with dual nomenclature within the Mycosphaerella complex.

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Author and article information

Journal

Journal ID (nlm-ta): Persoonia

Journal ID (publisher-id): Persoonia

Title: Persoonia

Publisher: Nationaal Herbarium Nederland & Centraallbureau voor Schimmelcultures

ISSN (Print): 0031-5850

ISSN (Electronic): 1878-9080

Publication date (Electronic): 3 March 2009

Publication date (Print): June 2009

Volume: 22

Pages: 56-62

Affiliations

[1 ]CBS Fungal Biodiversity Centre, P.O. Box 85167, 3508 AD Utrecht, The Netherlands;

[2 ]Plant Protection Service (PD), P.O. Box 9102, 6700 HC Wageningen, The Netherlands.

[3 ]Omnia Primaxa 2 Ngahere Park Rd, Turitea, Palmerston North, 4711, New Zealand.

Author notes

corresponding author e-mail: j.woudenberg@ 123456cbs.knaw.nl.

Article

DOI: 10.3767/003158509X427808

PMC ID: 2789541

PubMed ID: 20198138

SO-VID: 1cd0cea7-6e90-4a3a-bd53-bdef26f1de2b

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History

Date received : 6 January 2009

Date accepted : 23 February 2009

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Multiple Didymella teleomorphs are linked to the Phoma clematidina morphotype

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