S.-H. Jang scite author profile

From the combined phylogenetic analysis of multi-locus sequence data of the Lecanoraceae including two nuclear protein-coding markers (RPB2 and RPB1), the internal transcribed spacer and a fragment of the mitochondrial small subunit, found that the originally monotypic eastern Asian genus Verseghya is positioned within the Verseghya-Lecidella-Pyrrhospora clade of the Lecanoraceae and includes one more taxon Verseghya thysanophora widely distributed in Northern Hemisphere. The genus Lecidella forming the Lecidella-Glaucomaria subclade within the same Verseghya-Lecidella-Pyrrhospora clade of the Lecanoraceae found to have tendency to be polyphyletic after including the recently described eastern Asian taxon Lecidella mandshurica into phylogenetic analysis of the Lecanoraceae. It is shown that Lecidella mandshurica was previously recorded from China sub Lecidella aff. elaeochroma. The originally monotypic eastern Asian genus Sedelnikovaea forming a monophyletic branch within the Sedelnikovaea-Lecanoropsis subclade and being in out-position to the Rhizoplaca-Protoparmeliopsis s. str. clade of the Lecanoraceae found to include three more taxa, i.e. Sedelnikovaea marginalis, S. pseudogyrophorica, and S. subdiscrepans. The Eurasian Protoparmeliopsis bolcana, and the eastern Asian P. kopachevskae, are illustrated for the first time as being positioned within the Protopameliopsis branch of the Lecanoraceae, while the South Korean 'Protoparmeliopsis' chejuensis found to be positioned in separate monophyletic branch from all other branches of the Rhizoplaca-Protoparmeliopsis s. l. clade of the Lecanoraceae. The genus Polyozosia A. Massal. as earlier name for the former Myriolecis branch of the Lecanoraceae is accepted as far the type species of the latter genus, i.e. P. poliophaea, found to be positioned within this branch. The Polyozosia robust monophyletic branch is positioned in the outermost position in the Rhizoplaca-Protoparmeliopsis s. str. clade of the Lecanoraceae. Position and species content of the accepted genera Glaucomaria, Lecanoropsis, Omphalodina, Polyozosia, and Straminella are discussed in separate nrITS and mtSSU, and combined phylogeny based on concatenated sequences of nrITS, mtSSU, RPB2 and RPB1 genes. Fourty new combinations are proposed:

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An Easy, Rapid, and Cost-Effective Method for DNA Extraction from Various Lichen Taxa and Specimens Suitable for Analysis of Fungal and Algal Strains

Park

Jang

et al. 2014

Mycobiology

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Lichen studies, including biodiversity, phylogenetic relationships, and conservation concerns require definitive species identification, however many lichens can be challenging to identify at the species level. Molecular techniques have shown efficacy in discriminating among lichen taxa, however, obtaining genomic DNA from herbarium and fresh lichen thalli by conventional methods has been difficult, because lichens contain high proteins, polysaccharides, and other complex compounds in their cell walls. Here we report a rapid, easy, and inexpensive protocol for extracting PCR-quality DNA from various lichen species. This method involves the following two steps: first, cell breakage using a beadbeater; and second, extraction, isolation, and precipitation of genomic DNA. The procedure requires approximately 10 mg of lichen thalli and can be completed within 20 min. The obtained DNAs were of sufficient quality and quantity to amplify the internal transcribed spacer region from the fungal and algal lichen components, as well as to sequence the amplified products. In addition, 26 different lichen taxa were tested, resulting in successful PCR products. The results of this study validated the experimental protocols, and clearly demonstrated the efficacy and value of our KCl extraction method applied in the fungal and algal samples.

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New Aspicilia species from South Korea proved by molecular phylogeny with a key to the Eastern Asian aspicilioid lichens

Kondratyuk¹,

Lőkös²,

Park³

et al. 2016

Studia bot. hung.

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Zeroviella, a new genus of xanthorioid lichens (Teloschistaceae, Ascomycota) proved by three gene phylogeny

Kondratyuk¹,

Kim²,

Yu³

et al. 2015

Ukr.Bot.J.

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Zeroviella, a new genus of xanthorioid lichens (Teloschistaceae, Ascomycota) proved by three gene phylogeny.-Ukr. Bot. J.-2015.-72(6): 574-584. A new genus, Zeroviella S.Y. Kondr. & J.-S. Hur (Xanthorioideae, Teloschistaceae) for the widely distributed in the Palearctic Rusavskia papillifera-group is proposed on the basis of a combined phylogenetic data set based on ITS and LSU nrDNA and 12S SSU mtDNA sequences. A new species from Palearctic, Zeroviella esfahanensis S.Y. Kondr., B. Zarei-Darki & J.S. Hur, is described, illustrated and compared with closely related taxa. Seven new combinations for the genus Zeroviella (Zeroviella coreana (S.

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S.-H. Jang

New monophyletic branches of the Teloschistaceae (lichen-forming Ascomycota) proved by three gene phylogeny

Phylogeny and taxonomy of Polyozosia, Sedelnikovaea and Verseghya of the Lecanoraceae (Lecanorales, lichen-forming Ascomycota)

An Easy, Rapid, and Cost-Effective Method for DNA Extraction from Various Lichen Taxa and Specimens Suitable for Analysis of Fungal and Algal Strains

New Aspicilia species from South Korea proved by molecular phylogeny with a key to the Eastern Asian aspicilioid lichens

Zeroviella, a new genus of xanthorioid lichens (Teloschistaceae, Ascomycota) proved by three gene phylogeny

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