Abstract
The potential of DNA barcoding approaches to identify single species and characterize species compositions strongly depends on the marker choice. The prominent “Folmer region”, a 648 basepair fragment at the 5’ end of the mitochondrial CO1 gene, has been traditionally applied as a universal DNA barcoding region for metazoans. In order to find a suitable marker for biomonitoring odonates (dragonflies and damselflies), we here explore a new region of the CO1 gene (CO1B) for DNA barcoding in 51 populations of 23 dragonfly and damselfly species. We compare the “Folmer region”, the mitochondrial ND1 gene (NADH dehydrogenase 1) and the new CO1 region with regard to (i) speed and reproducibility of sequence generation, (ii) levels of homoplasy and (iii) numbers of diagnostic characters for discriminating closely related sister taxa and populations. The performances of the gene regions regarding these criteria were quite different. Both, the amplification of CO1B and ND1 was highly reproducible and CO1B showed the highest potential for discriminating sister taxa at different taxonomic levels. In contrast, the amplification of the “Folmer region” using the universal primers was difficult and the third codon positions of this fragment have experienced nucleotide substitution saturation. Most important, exploring this new barcode region of the CO1 gene identified a higher discriminating power between closely related sister taxa. Together with the design of layered barcode approaches adapted to the specific taxonomic “environment”, this new marker will further enhance the discrimination power at the species level.
Highlights
DNA barcodes, short DNA sequences of a standardized gene region, have been highly promoted for their fast and reliable identification of specimens of unknown species origin
We show that the “Folmer region” and ND1 are parsimony informative (Folmer) region” revealed a high percentage of parsimony informative sites at the third codon positions and that transversions at these positions experience substitution saturation in odonate species comparisons
This saturation might lead to reduced genetic differentiation at higher taxonomic levels and to false positive assignments of unknown samples when using this marker in DNA barcoding
Summary
DNA barcodes, short DNA sequences of a standardized gene region, have been highly promoted for their fast and reliable identification of specimens of unknown species origin. The marker choice analysis, decision to publish, or preparation of the manuscript
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