Utility of 16S-23S ITS sequence and secondary structure for recognition of intrageneric and intergeneric limits within cyanobacterial taxa: Leptolyngbya corticola sp. nov. (Pseudanabaenaceae, Cyanobacteria)
An unusual species of Leptolyngbya was isolated from tree bark by Marie Takačová in 1983. Originally it was considered to be a Lyngbya species, but since revision of the Oscillatoriales (Anagnostidis & Komárek 1988), it has resided in the Culture Collection of the Czech Academy of Sciences under the tentative designation Leptolyngbya foveolarum TAKACOVA 1983/4. We have studied the morphology, ultrastructure and 16S ribosomal RNA gene sequence data for this strain and have found it to be unique among all previously described species. Analysis of 16S rRNA gene sequence data for many Leptolyngbya taxa indicates close affinity with L. boryana, L. tenerrima and L. angustata, which is consistent with the morphological similarity we have seen among the three taxa. The 16S-23S ITS regions of 19 strains in the polyphyletic taxon Leptolyngbya were sequenced and folded, and the structure and sequence of these ITS regions were highly congruent with phylogeny determined from 16S rRNA gene sequence data. This agreement provides a straightforward way of recognizing intrageneric and possibly intergeneric taxonomic diversity. This taxon has distinct 16S-23S ITS sequences which, together with the morphological autapomorphies it possesses, are sufficient to clearly differentiate it from the three sister taxa sequenced thus far. For this strain, we propose the name L. corticola.
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Document Type: Research Article
Publication date: 01 May 2011
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- Nova Hedwigia is an international journal publishing original, peer-reviewed papers on current issues of taxonomy, morphology, ultrastructure and ecology of all groups of cryptogamic plants, including cyanophytes/cyanobacteria and fungi. The half-tone plates in Nova Hedwigia are known for their high quality, which makes them especially suitable for the reproduction of photomicrographs and scanning and transmission electron micrographs.
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