Abstract
The promise of DNA barcoding is based on a small DNA fragment divergence coinciding with biological species separation. Here we evaluated the performance of three markers as diatom barcodes, the small ribosomal subunit (1600bp), a 5' end fragment of cytochrome c oxidase subunit 1 (430bp), and the second internal transcribed spacer region combined with the 5.8S gene (5.8S+ITS-2, 300-400bp). Forty-four sequences per marker representing 28 species from all diatom classes were analysed. Sequence alignment of the three genetic markers and uncorrected genetic distances (P) were calculated at the intra- and heterospecific level. All three markers correctly separated the species examined and had advantages which contribute to their feasibility as a DNA barcode. Small ribosomal subunit had the largest GenBank data set, its success rate in amplification and sequencing was assumed to be the highest of all three and was readily aligned. However, it required a long fragment to recover divergence sufficient for species separation and small genetic distances increased the potential for misidentifications. Cytochrome c oxidase subunit 1 demonstrated a substantial heterospecific divergence level and was also readily alignable, but it showed very low amplification and sequencing success rates with currently existing primers. 5.8S+ITS-2 was amplified and sequenced with high success rate and was the most variable of the three markers, but its secondary structure was needed to aid in alignment. However, since it has been recently suggested that ITS-2 may provide insight into sexual compatibility, this marker offers an additional advantage. We therefore propose that the 5.8S+ITS-2 fragment is the best candidate as a diatom DNA barcode.
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