Abstract
Compensatory base changes (CBCs) in internal transcribed spacer 2 (ITS2) rDNA secondary structures correlate with Ernst Mayr’s biological species concept. This hypothesis also referred to as the CBC species concept recently was subjected to large-scale testing, indicating two distinct probabilities. (1) If there is a CBC then there are two different species with a probability of ∼0.93. (2) If there is no CBC then there is the same species with a probability of ∼0.76. In ITS2 research, however, the main problem is the multicopy nature of ITS2 sequences. Most recently, 454 pyrosequencing data have been used to characterize more than 5000 intragenomic variations of ITS2 regions from 178 plant species, demonstrating that mutation of ITS2 is frequent, with a mean of 35 variants per species, respectively per individual organism. In this study, using those 454 data, the CBC criterion is reconsidered in the light of intragenomic variability, a proof of concept, a necessary criterion, expecting no intragenomic CBCs in variant ITS2 copies. In accordance with the CBC species concept, we could demonstrate that the probability that there is no intragenomic CBC is ∼0.99.
Highlights
Compensatory base changes (CBCs) in internal transcribed spacer 2 (ITS2) secondary structures correlate with Ernst Mayr’s biological species concept from the 1940s
If there is a CBC there are two different species with a probability of,93%. (2) If there is no CBC there is the same species with a probability of,76%
Compensatory base changes (CBCs) in internal transcribed spacer 2 (ITS2) secondary structures correlate with the biological species concept [7]
Summary
Compensatory base changes (CBCs) in internal transcribed spacer 2 (ITS2) secondary structures correlate with Ernst Mayr’s biological species concept from the 1940s. When sufficient evolutionary distance has accumulated to produce even one CBC in the relatively conserved pairing positions of the ITS2 transcript secondary structure, taxa differing by the CBC are observed experimentally to be totally incapable of intercrossing’’ (see [3,4,5,6]) This hypothesis, referred to as the CBC criterion or the CBC species concept was subjected to large-scale testing by Muller et al [7], using the ITS2 database [8,9,10,11,12], which currently holds ,300.000 ITS2 secondary structures, and the 4SALE program for synchronous sequence and secondary structure alignment and editing [13,14]. The result of this comprehensive analysis indicated two distinct probabilities. (1)
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