PT  - JOURNAL ARTICLE
AU  - Keaton Tremble
AU  - Laura M. Suz
AU  - Bryn T.M. Dentinger
TI  - Lost in Translation: population genomics of porcini (&lt;em&gt;Boletus edulis&lt;/em&gt;) challenges use of ITS for DNA barcoding in &lt;em&gt;Fungi&lt;/em&gt;
AID  - 10.1101/811216
DP  - 2019 Jan 01
TA  - bioRxiv
PG  - 811216
4099  - http://biorxiv.org/content/early/2019/10/21/811216.1.short
4100  - http://biorxiv.org/content/early/2019/10/21/811216.1.full
AB  - The internal transcribed spacers (ITS) of the rDNA cistron are the most commonly used DNA barcoding region in Fungi [1]. rDNA genes are repeated dozens to hundreds of times in the eukaryotic genome [2] and it is believed that these arrays are homogenized through concerted evolution [3, 4] preventing the accumulation of intragenomic, and intraspecific, variation. However, numerous studies have reported rampant intragenomic and intraspecific ITS variation [5–11], contradicting our current understanding of concerted evolution. Here we show that in Boletus edulis Bull., ITS intragenomic variation persists at low allele frequencies throughout the rDNA array, this variation does not correlate with genomic relatedness between populations, and rDNA genes may not evolve in a strictly concerted fashion despite the presence of unequal recombination and gene conversion. Under normal assumptions, heterozygous positions found in ITS sequences represent hybridization between populations, yet through allelic mapping of the rDNA array we found numerous heterozygous alleles to be stochastically introgressed throughout, presenting a dishonest signal of gene flow. Moreover, despite the signal of gene flow in ITS, our organisms were highly inbred, indicating a disconnect between true gene flow and barcoding signals. In addition, we showed that the mechanisms of concerted evolution are ongoing in pseudo-heterozygous individuals, yet are not homogenizing the ITS array. Concerted evolution of the rDNA array may insufficiently homogenize the ITS gene, allowing for misleading signals of gene flow to persist, vastly complicating the use of the ITS locus for DNA barcoding in Fungi.