Down, then up: non-parallel genome size changes and a descending chromosome series in a recent radiation of Australian allotetraploid plant species, Nicotiana section Suaveolentes (Solanaceae).
Mark W ChaseRosabelle SamuelAndrew R LeitchMaïté S GuignardJohn G ConranFelipe NolletPaul FletcherAljaž JakobLuiz A Cauz-SantosGabriel VignolleSteven DodsworthMaarten J M ChristenhuszMaria Teresa BurilOvidiu PaunPublished in: Annals of botany (2022)
The results indicate that decreases in genome size and chromosome number occur in parallel down to a chromosome number threshold, n = 20, below which genome size increases, a phenomenon potentially explained by decreasing rates of recombination over fewer chromosomes. We hypothesize that, more generally in plants, major decreases in genome size post-polyploidization take place while chromosome numbers are still high because in these stages elimination of retrotransposons and other repetitive elements is more efficient. Once such major genome size change has been accomplished, then dysploid chromosome reductions take place to reorganize these smaller genomes, producing species with small genomes and low chromosome numbers such as those observed in many annual angiosperms, including Arabidopsis.